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THREE ESSAYS ON INNOVATION AND ENTREPRENEURSHIP:
DIVERSIFICATION, BOUNDARY EXPANSION, AND DIFFERENTIATION
By
SANG KYUN KIM
A dissertation submitted in partial fulfillment of the requirements for the degree of
DOCTOR OF PHILOSOPHY
WASHINGTON STATE UNIVERSITY
College of Business
AUGUST 2010
© Copyright by SANG KYUN KIM, 2010 All Rights Reserve
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UMI Number: 3452349
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UMI 3452349
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© Copyright by SANG KYUN KIM, 2010
All Rights Reserved
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To the Faculty of Washington State University:
The members of the Committee appointed to examine the dissertation of
SANG KYUN KIM find it satisfactory and recommend that it be accepted.
___________________________________ John B. Cullen, Ph.D., Chair
___________________________________
Jonathan D. Arthurs, Ph.D. ___________________________________
Arvin Sahaym, Ph.D.
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ACKNOWLEDGEMENT
It has been long journey, and now I am standing in front of a new door. I appreciate the
number of individuals who have supported me during the doctoral program. First, I am
especially grateful to my dissertation chair, Dr. John Cullen, for his generous support, patience,
and encouragement throughout my studies. His guidance with kind and warm encouragement
motivated me to continue to focus on my studies. I am honored to be one of his students, and I
will always remember his kind instruction.
I also would like to thank my other committee members, Dr. Jonathan Arthurs and Dr.
Arvin Sahaym, who have taught me innumerable lessons and insights on the workings of
academic research. Dr. Arthurs has allowed me to work with him and to take advantage of his
broad knowledge. I appreciate the enthusiasm, kindness, and patience he displayed in working
with me. Dr. Sahaym was both a mentor and my friend who listened carefully when I needed
support, offered me excellent advice, and opened several doors to show me options I had not yet
considered. I am grateful to his endless support, patience, and guidance.
It is not often that one finds committee members who always find the time to listen to the
little problems and roadblocks that unavoidably crop up in the course of performing research. I
will remain indebted to all my committee members for each moment of kindness and the
dedication they provided to help me reach this goal. The friendship of Daeil, Fariss, Adi, Kevin,
Tera, Dustin, and Doug is appreciated for many good-spirited discussions. Also, I am indebted to
all the faculty and staff members in the Department of Management and Operations who have
helped me over the years. Especially, I would like to extend my appreciation for Dr. Ahn, who
as a mentor, always offered unlimited advice, support and dedication.
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My parents receive my deepest gratitude and love for their dedication and the many years
of support during my studies. I also would like to express my gratitude to parents-in-law for their
emotional support. My lovely daughter, Suah, deserves recognition because she provides me
great strength and a smile which gives the drive to keep up my work. Last but not least, I would
like to thank my wife, Jihyun, for her understanding and endless love. Her support and
encouragement was in the end what made this dissertation possible. Without her, I could not
have completed the doctoral program and my dissertation.
These all wonderful individuals have helped me complete my Ph.D. degree, and have
made my time at Washington State University a rewarding experience.
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THREE ESSAYS ON INNOVATION AND ENTREPRENEURSHIP:
DIVERSIFICATION, BOUNDARY EXPANSION, AND DIFFERENTIATION
Abstract
by Sang Kyun Kim, Ph.D. Washington State University
AUGUST 2010
Chair: John B. Cullen
This dissertation investigated the topics of innovation and entrepreneurship. The first
essay discusses the relationship between diversification and innovation by integrating the
insights of organizational search and contingencies literatures. The main argument is that a
strategic fit between diversification and organizational contingencies leads to higher
technological innovation. We find that a related diversification strategy leads to higher
innovation when a local search is used by the company. In contrast, an unrelated diversification
strategy leads to higher innovation when a broader search is used. Further, this study shows that
technological capital is importance factor for a diversified firm to take an advantage of benefits
from broader corporate scope.
The second essay explores young firms’ boundary expansion activities to develop its
capabilities. Firms may differ in their search and renewal strategies based on their stage in the
life cycle. Unlike the incumbents, young firms that just went through Initial Public Offering (IPO)
may use different strategies contingent on their unique resources and the liabilities. Built on
Resource Based View (RBV), we find that young firms with R&D resources develop an internal
factor market to develop its competencies, while young firms with financial resource prefer to
engage in boundary expansion activities. We also find that young firms’ boundary expansion
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activities are further constrained in the presence of environmental uncertainty, and strong
competition in the industry.
Finally, the third essay investigates the performance consequences of new venture’s
strategic differentiation. We address how the patterns of differentiation affect the new venture’s
short-term and long-term performance after going public. The main argument is that firms using
a differentiation strategy will have higher performance than those with similarity strategy.
Empirical support for the argument is found in the high technology industry. Additionally, the
results show that in the IPO context, strategic differentiation is more beneficial under high
uncertain environment.
Overall, the three essays in this dissertation 1) provide a more refined view of the
relationship between diversification strategy and innovation, 2) explain young firms’ strategic
choice to develop a capability, and 3) discuss the strategic behavior of new ventures and its
implication for performance after IPO.
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TABLE OF CONTENTS
Page
ACKNOWLEDGEMENTS ........................................................................................................... iii
ABSTRACT ....................................................................................................................................v
LIST OF TABLES ...................................................................................................................... viii
LIST OF FIGURES ...................................................................................................................... ix
CHAPTER
1. INTRODUCTION .............................................................................................................1
2. PAPER ONE ..................................................................................................................... 3
“Search Behavior and Technological Capital of the Diversified Firm:
The Impact of Fit on Innovation”
3. PAPER TWO ................................................................................................................... 42
“Resources and Organizational Boundary Expansion in the Early Stage”
4. PAPER THREE ...............................................................................................................81
“Initial Public Offering and the Strategic Behavior of Firm:
Differentiation and Performance”
5. DISSERTATION SUMMARY AND GENERAL CONCLUSION .............................117
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LIST OF TABLES
2.1 Descriptive Statistics and Correlation Matrix (Paper 1) .........................................................24
2.2 Results of Regression Analysis with Fixed Effects Predicting Innovation Productivity ........25
3.1 Descriptive Statistics and Correlation Matrix (Paper 2) .........................................................63
3.2 Results of Tobit Regression Analysis for Boundary Expansion .............................................64
4.1 Descriptive Statistics and Correlation Matrix (Paper 3) .......................................................101
4.2 Results of Multivariate Regression Analysis Estimating Short-Term and Long Term
Performance of New Ventures ................................................................................................102
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LIST OF FIGURES
2.1 Model of Strategic Fit for Innovation Productivity: Diversification, Search, and
Technological Capital (Paper 1)............................................................................................... 17
2.2 Effect of Organizational Contingencies on Innovation Productivity ......................................29
3.1 Interaction Effects among R&D resource, Environmental Dynamism, and Industry
Competition (Paper 2) ...............................................................................................................67
4.1 Interaction Effects between Differentiation and Environmental Dynamism on the Short-
Term Performance (Paper 3) ...................................................................................................104
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Dedication
This dissertation is dedicated to Jihyun Kang, Suah Kim, and my family
who provided both emotional and financial support.
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CHAPTER ONE
INTRODUCTION
The topics of innovation and entrepreneurship have been among the main subjects
discussed in the strategic management field. The purpose of this dissertation is to provide a deep
understanding about the behavior of the firm with respect to innovation, organizational boundary
expansion, and IPOs. The first essay provides a new approach to account for the relationship
between diversification and innovation by integrating the insights of organizational search and
contingencies literature. Previous research on this relationship has provided inconclusive results.
To reconcile the debate, we identify organizational contingencies to explain the conditions under
which a diversified corporation has higher innovation output. The empirical results provide
support for the idea that a strategic fit among the diversification strategy, the search behavior,
and the technological capital all serve to increase innovation productivity, while misfit in these
areas decrease innovation output. More specifically, firms using a related diversification strategy
with local search are more likely to select the R&D projects that are related to their existing core
technologies and improve their overall innovation productivity. Also, the results show that
technological capital is a valuable resource that enables the firm to improve innovative
performance as it diversifies into either a related or unrelated industry.
The second essay explores firm’s preference in their search and renewal strategies in the
organizational life cycle. We particularly look into resource portfolio of young firms, and their
strategic choice between internal development and boundary expansion activities. From
capability perspective built on resource based view, we suggest that young firm’s unique
resource portfolio accounts for the patterns of their organizational boundary expansion activities.
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With 158 U.S. companies in high technology industry, we find support for the idea that boundary
choice between internal and external market is consistent with the available, unique resource
they posses. The results shows that internal market is preferred by young firms with high R&D
resources, while young firms with high financial resources are more likely to take advantage of
environmental opportunities through market transaction mechanisms, such as acquisitions,
alliances, and joint ventures. We also find that young firms’ boundary expansion activities are
further constrained in the presence of environmental uncertainty, and strong competition in the
industry.
Finally, the third essay addresses an impact of particular strategy of new venture on
short- and long-term performance. New ventures may pursue similarity or differentiation to
increase their performance. We mainly focus on the technological differentiation of new venture
before going public, and how the strategic choice taken before a firm’s IPO influences the firm’s
performance after IPO. The main argument is that new ventures that use a differentiation strategy
will have higher performance than those firms using a similarity strategy. Empirical support for
the argument is found in the high technology industry. We also find that that in the presence of
uncertainty, higher level of differentiation strategy is more positively related with new venture
performance at the time of IPO.
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CHAPTER TWO
PAPER ONE
SEARCH BEHAVIOR AND TECHNOLOGICAL CAPITAL OF THE DIVERSIFIED
FIRM: THE IMPACT OF FIT ON INNOVATION
ABSTRACT
This paper provides a new approach to account for the relationship between diversification and
innovation by integrating the insights of organizational search and contingencies literatures.
Unlike the extant literature that suggests a direct effect, we argue that a strategic fit between
diversification and organizational contingencies leads to higher technological innovation. With a
longitudinal study of 248 manufacturing firms’ patenting activity, we find support for the idea
that strategic fit is important for innovation output. More specifically, a related diversification
strategy leads to higher innovation when a narrow technological search strategy is used by the
company. In contrast, an unrelated diversification strategy leads to higher innovation when a
broader technological search strategy is used. We also find that technological capital is
importance for a diversified firm to take an advantage of benefits from broader corporate scope.
Our analyses provide a more refined view of the relationship between diversification strategy
and innovation.
Keywords:
Innovation, diversification, search, organizational contingency
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INTRODUCTION
Corporate level strategy is concerned with answering what businesses a company should
be in and how those businesses should be managed to create greater value (Montgomery, 1994;
Porter, 1987). Accordingly, corporate level strategy is concerned foremost with examining how
diversification affects performance. On this point, much research has been conducted over the
last 30 years. From this research we know that a modicum of diversification is associated with
superior performance, but too much diversification is actually detrimental. More specifically,
the relationship between diversification and performance exhibits an inverted-U shape (Palich,
Cardinal, & Miller, 2000).
While understanding the impact of diversification on performance is the primary focus of
corporate strategy research, a related focus in this area of research is understanding how
diversification affects innovation (Hoskisson, Hitt, & Hill, 1991). Given the importance of
innovation on performance (Zollo, Reuer, & Singh, 2002), these two issues are likely not
independent. On the one hand, scholars have suggested a negative relationship between
diversification levels and innovation (Baysinger & Hoskisson, 1989; Hitt, Hoskisson, & Ireland,
1994; Hoskisson, Hitt, Johnson, & Grossman, 2002). As a firm diversifies, it may move away
from its core business and gradually lose its ability to leverage its core competencies (Markides,
1992) particularly if those core competencies are not scalable (e.g. able to grow in relation to the
size of the organization). Additionally, diversification also increases the marginal costs in an
organization owing to the increased information processing demands (Bergh & Lawless, 1998;
Hill & Hoskisson, 1987). Oftentimes, organizations adopt simpler structures and resort to the use
of financial controls once the organization has grown significantly through acquisitions
(Hoskisson, Hitt, Johnson, & Moesel, 1993). Although these activities allow the organization to
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expand its span of control, these efforts reduce the amount of rich information used in decision
making (Galbraith, 1974) and can have a vitiating effect on internal innovation. Furthermore,
when business unit managers are evaluated strictly based on their unit’s financial performance,
they become risk averse and unwilling to invest in uncertain technology needed for internal
innovation. As a result, research has found that organizations which are more diversified tend to
acquire innovation rather than develop it internally (Hoskisson et al., 2002). In sum, this
research tends to evidence a negative relationship between diversification levels and innovation.
On the other hand, some scholars have suggested an alternative perspective and argue
that diversification actually abets innovation. A firm which actively engages in diversification
tends to have both a mindset of exploration and exploitation along with high R&D investment
(Chen, 1996). Since diversified firms possess more opportunities for the internal use of
knowledge, innovativeness may actually increase owing to the economies of scope arising
through diversification (Katila & Ahuja, 2002). Such firms may also develop higher and diverse
levels of absorptive capacity which, in turn increases innovativeness (Lane, Koka and Pathak,
2006). Additionally, transferring technology and skills may be easier within organizational
boundaries than beyond organizational boundaries (Miller, Fern, & Cardinal, 2007a). In an
international context, for example, Barkema and Vermeulen (1998) argued that higher levels of
international diversification were associated with Greenfield ventures and the use of internally
developed innovation whereas lower levels of international diversification were associated with
acquisitions. They argued that the less-diversified firm will generally use acquisitions to acquire
needed technology whereas the more-diversified firm will develop the technology internally as a
result of superior capabilities for internal innovation.
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Given these two apparently conflicting perspectives, it would seem that our
understanding of the relationship between diversification and innovation has reached an impasse.
With these issues in mind, we cannot simply conjecture about the relationship between
diversification and innovation without understanding the innovation process and the search
behavior of firms. Thus, we seek to identify when a diversified firm will have higher innovation
outputs and how organizational contingencies (i.e. search scope and technological capital)
influence the innovation. Overall, the purpose is to attempt to reconcile the above
inconsistencies by suggesting a contingency approach (Govindarajan, 1988; Venkatraman, 1989)
which combines organizational search theory, technological capital, and diversification strategy.
This paper contributes to the diversification and innovation literature by providing a more
elaborate explanation concerning the effect of diversification strategy on innovation. Instead of
assuming a simple positive or negative relationship between diversification and innovation, we
show how existing capabilities as well as the existing diversification strategy affects innovation.
Additionally, by taking into account firms’ search behavior, we are able to show that the type of
search (e.g. local or distant) moderates the relationship between diversification type and
innovation output. The paper is organized as follows. We first provide a brief review of the
literature on innovation, and organizational search. Afterwards, we develop a model that
accounts for the differences in innovation productivity in diversified firms. Hypotheses
concerning innovation are then developed based on the concept of strategic fit (between
diversification strategy and organizational contingencies). Next the hypotheses are tested on a
sample of 248 U.S. manufacturing firms during the period 1991-1998. Finally, implications and
topics for future research are discussed.
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THEORETICAL BACKGROUND
It is difficult to conclude whether diversification improves a firm’s innovation and extant
research addressing the relationship between diversification and innovation seems rather
inconsistent. We believe that there are four underlying reasons for the apparently inconsistent
findings. First, the labels given to corporate diversification strategies and the theories used to
explain the reasons for diversification have necessarily given the notion that higher levels of
diversification are driven primarily by agency motives (Montgomery, 1994). More specifically,
as noted above, higher diversification levels are associated with managerial self-interest seeking
as well as lower investment in uncertain technology because both actions reduce managerial
employment risk. Indeed, in one of the most impactful papers on corporate strategy, Porter
(1987) argued that an unrelated diversification strategy is only value creating in an inefficient
capital market (which is not applicable in developed economies) or when a company uses it for
restructuring purposes (wherein an acquiring company restructures a poorly performing company
and then spins or sells it off afterwards). Based on Rumelt’s (1974) classification of
diversification types, it is assumed that firms which are highly diversified such as Tyco Intl
(Collis & Montgomery, 1998) utilize an unrelated diversification strategy and therefore seek to
be run as lean as possible. From this research stream, the impression is that firms which are
more highly diversified must necessarily be ‘low tech’ and focused on reducing costs as low as
possible. However, this may not be true because there are companies like G.E. and Disney
which maintain high levels of diversification and still exhibit high levels of innovation.
Second, most prior papers focus on one of the two sides of innovation (Ahuja, Lampert,
& Tandon, 2008). Innovation, broadly defined as ‘the adoption of an idea or behavior related to
a device, a process, or a product, that is new to the organization’ (Aiken & Hage, 1971;
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Damanpour, Szabat, & Evan, 1989; Hage, 1999), can be separated into innovation inputs or
efforts (also synonymous with innovation intensity), and innovation outputs (Ahuja et al., 2008).
Although diversification scholars have primarily focused on innovation efforts (such as R&D
intensity), innovative efforts differ from innovative outputs in that the former is associated with
incentives, while the latter is related to productivity. Previous studies have assumed that there is
a strong correlation between R&D intensity and valuable internal innovation, but this assumption
may not be true (Trajtenberg, 1990). Again, innovation intensity should be a necessary condition,
but not necessarily a sufficient condition for valuable innovation. In addition, innovation input
and output may not be perfectly endogenous to corporate strategy. Some firms continue or even
increase their investment in R&D activities, and engage in R&D projects more intensively after
diversifying. Therefore, it is still unclear how diversification strategy influences the quality and
productivity of technological innovation.
Third, there is a need to integrate organizational search activity in a more nuanced way
into the diversification literature beyond the idea that some firms acquire innovation and some
develop it internally. Research activity in firms can be modeled as a search for solutions in the
knowledge domain (Ahuja & Katila, 2004; Fleming, 2001; Rosenkopf & Nerkar, 2001). And
scholars have viewed innovation as the result of organizational search (Cyert & March, 1963;
Greve & Taylor, 2000) or learning behavior (Levinthal & March, 1993; March, 1991). They
have endeavored to understand how organizations explore new knowledge that can be applied to
the existing knowledge and how those activities influence the magnitude of innovation.
Similarly, diversifying firms tend to engage in broader search for technological innovation
(Miller, 2006), and can take advantage of new knowledge across business units thereby leading
to better prospects for realizing economies of scope in R&D activities by sharing knowledge
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(Markides & Williamson, 1994; Miller et al., 2007a). Although organizational search behavior
has often been treated as exogenous to diversification strategy, it does not provide a clear
explanation about the effect of diversification on innovation productivity. Therefore, it would be
valuable to account for how organizational search behavior in combination with the
diversification strategy affects innovation.
Fourth, previous research examining the link between diversification and innovation has
not taken into account the firm’s existing resources and capabilities. A firm with its own set of
innovation capabilities in a technologically oriented industry may acquire another company
which has complementary technology that can be used to further improve the existing core
technology (Zahra, Ireland, & Hitt, 2000). Through this acquisition, the firm obtains and
accumulates new technological capital (Ahuja & Katila, 2001). Although diversified firms have
opportunities to explore new technology by integrating their existing technology with that which
is acquired, these opportunities may not result in high innovation output unless the firms have
sufficient R&D resources and capabilities to begin with. Thus, firm characteristics may
significantly influence the ability to explore potential opportunities of increased corporate scope.
In this paper we specifically focus on how newly-obtained technology can be integrated
with existing technology, and how a diversified firm improves its innovation productivity in the
process. Technological innovation, which is defined as ‘a technology new to a given
organization’ (Schoonhoven, Eisenhardt, & Lyman, 1990; Tornatzky et al., 1983), is an
intangible asset which often plays a critical role in achieving competitive advantage (Barney,
2001; Grant, 1996).
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INNOVATION, SEARCH, AND STRATEGIC FIT
Accessing external knowledge is important because it fosters innovation and enhances
firm performance (Zollo et al., 2002). Knowledge search and its incorporation into the
organization are very much a part of the innovation process. Since knowledge search is a central
part of the innovation process, a key question from a corporate level strategy perspective is
understanding how a diversified company goes about obtaining external knowledge.
From a corporate strategy perspective, technological innovation could be complementary
to the firms’ diversification strategy. As noted above, diversification has both positive and
negative effects on innovation. Simply investigating the direct relationship and drawing
conclusions hinders the possibility of identifying what factors may affect the relationship
between diversification levels and innovation. We argue that firms pursuing innovation must
find the right ‘fit’ between their diversification strategy and the organizational contingencies
needed for innovation. According to the strategic formulation literature, a strategic fit refers to
the situation in which a firm’s strategy is congruent with environmental or organizational
contingencies (Andrews, 1971; Siggelkow, 2001; Zajac, Kraatz, & Bresser, 2000). Organizations
pursue strategic fit in order to achieve desirable performance and output (Miles & Snow, 1994).
In this paper, search scope and technological capital are mainly focused among the
organizational contingencies which are directly related to the implementation of innovation
strategy.
Search Scope as Organizational Contingency
Cyert and March (1963) provided a basic frame for studying organizational search
behavior in their classic book. Organizations engage in search behavior to find solutions and
facilitate changes in organizational routines (Greve & Taylor, 2000). Thus, search behavior is
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part of the organizational learning process (Huber, 1991) and an essential step in innovation
dynamics (Nelson & Winter, 1982).
Organizational search can be classified into two types in terms of scope: 1) distant search
which refers to exploration of new opportunities that emphasize more experimental and distant
innovation beyond current organizational boundaries (Rosenkopf & Nerkar, 2001), and 2) local
search which refers to exploitation that emphasizes immediate refinement and proximate
alternatives in a firm’s R&D activity (Nelson & Winter, 1982). On the one hand, a firm may
concentrate on a bounded set of technologies to cultivate valuable and commercially viable
products, which is local search. On the other hand, a firm may expand its technological path into
new areas that will serve as the seed for future technological developments, which is distant
search (Levitt & March, 1988; March, 1991). For example, Stuart and Podolny (1996) found
that organizations tend to engage in local search in order to develop a related technological
domain from their existing knowledge store.
In terms of scope, local search is characterized as narrow or focused, while distant search
is broad. Based on the nature of these search types, it would make sense that firms using a
narrow diversification strategy would be more likely to utilize a narrow search since their
strategy is associated with sharing activities among subunits. On the other hand, as a firm’s level
of diversification increases the ability to share local knowledge would likely decline due to the
diseconomies of sharing (e.g. increasing differences among business units would make it less
useful to share the same knowledge across all units). As a result, we should expect to see
broader search as the level of diversification increases and empirical results support this direct
relationship (Miller, 2004). Since we are interested in testing the concept of fit in this paper,
however, we are seeking to examine how diversification levels and search types affect
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innovation outputs. If strategic fit is important (as we have argued thus far), then a lack of fit
should lead to lower innovation output.
As noted above, search scope and organizational scope follow similar themes. That is,
narrower search is consistent with related diversification in that both are associated with the
pursuit of resources or technologies in a related area. Broader search is consistent with unrelated
diversification in that both are associated with the pursuit of resources in a distant or unrelated
area. For example, when a firm in the automobile industry focuses on improving its core
technology and seeks to exploit possible complementary technologies in a similar industry,
related diversification would support the firm’s R&D activity. This strategic action could lead to
higher innovation productivity because the firm obtains a strategic fit between its corporate
strategy and search behavior. In this case, higher relatedness could lead to what Markides and
Williamson (1994) call ‘asset fission.’ After diversifying, the firm would have a greater number
of potential combinations of knowledge to extend to the existing knowledge bases of each unit
and thereby may develop new knowledge.
As a firm pursues greater diversification, it becomes more difficult to know which
combinations of knowledge will provide the highest rewards. Likewise, when a firm with lower
levels of diversification pursues more distant search, the same difficulty arises. It becomes
increasingly difficult to understand how technologies beyond the core can easily be applied to
current knowledge and it also becomes more difficult to extend this more distant knowledge to
all of the firm’s business units. Further, when a firm attempts to utilize knowledge combinations
outside of the core technologies, the ability to profitably utilize this knowledge will decline and
impede innovation productivity. As such, familiarity and similarity with a technology obtained
through local search should lead to a stronger ability to exploit this knowledge. Therefore, we
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suggest that extending the existing technology through local search will be positively associated
with the relationship between related diversification and innovation productivity.
Hypothesis 1. Search scope moderates the relationship between related
diversification and innovation productivity such that a diversified corporation in
related industries is positively (negatively) related to innovation productivity
when the firm pursues local (distant) search.
Diversification which is carefully managed and implemented supports exploiting new
opportunities by sharing and transferring resources across business units. While firms may stay
within their technological trajectories (Dosi, 1982), they may also go beyond their technological
trajectories in order to find novelty from the combination of inherent technologies and new ones
across domains (March, 1991; Miller, 2006). Studies in search scope have found support for the
argument that firms first diversify their technology in predictable ways, and then enter into new
markets on the basis of the technological trajectory (Miller, 2004; Silverman, 1999). However,
sharing complementary competencies in order to realize synergies between the existing units and
new units (Hoskisson & Hitt, 1990) also may lead to information overload, information
asymmetry, and complexity. Although there are more opportunities to develop innovation
through integrating core technologies and newly acquired technologies, a different direction
between diversification and search behavior results in decreased innovation productivity. In this
situation when firms engaging in unrelated diversification seek sources for innovation in a close
industry, a strategic misfit occurs. Additionally, simply having access to technologies in the
distant industry does not guarantee the development of new innovation unless the firm
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intentionally pursues innovation that integrates its existing technologies with the new
technologies unrelated to its core technology. Therefore, we believe that a strategic misfit
between organizational diversification levels and search behavior will decrease the firm’s
innovation productivity. In contrast, a strategic fit exists when firms with a tendency for distant
search diversify into unrelated industries, and this enables the firm to improve innovation
productivity.
Hypothesis 2. Search scope moderates the relationship between unrelated
diversification and innovation productivity such that a diversified corporation in
unrelated industries is positively (negatively) related to innovation productivity
when the firm pursues distant (local) search.
Technological Capital as Organizational Contingency
To explain technological capital as an organizational contingency, this paper builds on
the knowledge based view (KBV) of the firm, which views firms as heterogeneous, knowledge-
bearing entities (Grant, 1996). KBV considers knowledge the most strategically important
resource to achieve sustainable competitive advantage (Grant, 1996; Spender, 1996), and
emphasizes the importance of human and technological capital since the investment in firm-
specific human capital has a significant impact on learning and performance (Hatch & Dyer,
2004). According to this perspective, organizations should develop technological capital, which
is defined as a firm’s capability in creating new technology, products, and processes (Ahuja,
2000; Cohen & Levinthal, 1990). In technology-oriented industries, technological capital is a
necessary resource to gain a competitive advantage.
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As Arora and Gambardella (1990) note, a firm’s successful history in innovative
activities serves as signals of their accumulated technological capital. It also represents the firm’s
innovation intensity in that the efforts in innovation are reflected by the accumulated knowledge
stocks. Given this, diversified firms can be divided into two groups depending on their level of
technological capital. An organization with high technological capital is capable of utilizing the
technologies available from acquisitions, while another group with low technological capital
would experience lower innovation productivity because of a lack of this capability. Even in the
stage of selecting a target, other things being equal, firms prefer to acquire potential firms which
possess higher levels of technological capital themselves (Ahuja, 2000).
Although increases in the level of diversification through acquisition allow a firm to
access external sources for innovation and increase innovation productivity, this positive effect
may reduce the firm’s R&D intensity for internal R&D development (Hoskisson & Johnson,
1992). For the firm with low technological capital, high diversification makes the firm less
capable of developing new products and technology internally. This situation indicates a
strategic misfit which occurs when a firm with little technological capital (e.g. lack of an ability
to invent new technologies) highly diversifies in order to improve innovation productivity.
However, when a firm has high technological capital, the firm is more willing to explore
opportunities to combine available technologies. Thus, with high technological capital, the
diversified firm is more likely to pursue potential opportunities from the more available
resources, which positively influences the relationship between diversification and innovation
productivity. The firm’s capability to develop new technology internally complementarily
enhances innovation productivity. Therefore, a strategic fit exists when firms with high
technological capital diversify.
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Since the current position of a company in terms of technology is determined by the path
it has pursued (Teece, Pisano, & Shuen, 1997), this paper suggests hypotheses that test the effect
of a firm’s accumulated knowledge stock and R&D capability in the past, which represents the
amount of technological capital. Therefore, we suggest that diversification strategy is positively
associated with innovation productivity when a corporation has high levels of knowledge stock.
This effect will be consistent with both unrelated and unrelated diversification.
Hypothesis 3. Knowledge stock moderates the relationship between both related
and unrelated diversification, and innovation productivity such that a diversified
corporation is positively related to innovation productivity when the firm has
higher knowledge stock.
With little expertise in the technologies of an industry, firms are unable to innovate by
using technologies available from a diversification strategy. Thus, we suggest that diversification
strategy supports innovation activities when a firm has strong R&D capability.
Hypothesis 4. R&D capability moderates the relationship between both related
and unrelated diversification, and innovation productivity such that a diversified
corporation is positively related to innovation productivity when the firm has
higher R&D capability.
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FIGURE 2.1 Model of Strategic Fit for Innovation Productivity: Diversification, Search, and Technological
Capital
METHOD
Data and Sample
The research sample was drawn from U.S. companies in the manufacturing industries.
The data was mainly obtained from the COMPUSTAT Business Segment data and the National
Bureau of Economic Research (NBER) Patent Citations data file. An updated NBER patent data
contains information about patent, technological class, application year, citation, and assignee in
the period 1975 -2002 (Hall, Jaffe, & Trajtenberg, 2001). Although many scholars have used
Innovation Productivity
Diversification
Related Diversification
Unrelated Diversification
Search Scope
Local Search
Dominant Search
Technological Capital
R&D Capability
Knowledge Stock
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patent data as a proxy measure for innovation (see Argyres & Silverman, 2004; Miller et al.,
2007a; Rosenkopf & Nerkar, 2001), Patent data is not without limitations in that not all
technological innovation is patented (Hall et al., 2001). Patent activities vary from industry to
industry, and patents are a way to protect intellectual property rights rather than measuring the
innovation output directly (Rodriguez-Duarte, Sandulli, Minguela-Rata, & Lopez-Sanchez,
2007). Additionally, patents represent invention rather than innovation (Becheikh, Landry, &
Amara, 2006). However, these concerns are mitigated by the benefits of using patent data. First,
NBER patent data allows scholars to measure a firm’s technological capital, flow of knowledge,
and interfirm relationships for knowledge building. Second, the availability of panel data is
helpful in determining the causality among variables. Additionally, Patel and Pavitt (1994) point
out the complements between codified knowledge and uncodified knowledge (so unpatented data
should not be a problem). Lastly, since this paper focuses on technological innovation, patent
data would be an appropriate source to measure firms’ behaviors concerning technological
innovation, and technological capital.
Using COMPUSTAT data, we collected all U.S. companies in the manufacturing
industries in the period between 1991 and 19981
1 NBER patent data was available for the period 1963-2002, but data in 2002 were not considered because of the few citations and patent applications. Innovation productivity and knowledge stock were measured by the 4-year accumulative number of patents before and after the focal year, respectively. Thus, the overall time windows were 1987-2001 for patent data, and 1991-1998 for financial data.
. The manufacturing firms were determined
based on 4-digit SIC codes 2011-3999. After matching the sample with patent data by using
CUSIP numbers, 947 firms remained. Of these, only 248 firms met the criteria that patent data
and financial data were available during 1987-2001, and that a firm existed at least 10 years
which allowed us to obtain a minimum of five years of longitudinal data. The final sample was
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248 companies in manufacturing industries in the period 1991-1998. The total number of
longitudinal observations in the period was 19052
Measures
.
Dependent variable. The dependent variable, innovation productivity, represents the
degree to which a firm benefits from R&D activities. It was measured by the natural log of the
accumulated number of patents applied for during the four years3
Independent Variable. The independent variable, diversification, was measured by the
entropy measure developed by Palepu (1985). There are multiple ways to measure the level of
diversification, but Hoskisson et al. (1993) found evidence of construct validity for the entropy
measure (Amit & Schoemaker, 1993; Jacquemin & Berry, 1979). It consists of two components
(Total diversification (DT) = Related Diversification (DR) + Unrelated Diversification (DU)). To
test the suggested hypotheses, we used related diversification (DR) and unrelated diversification
after the focal year. As noted
earlier, the technological innovation process can be separated into two different points of view:
innovation intensity (input side) and innovation productivity (output side) (Ahuja et al., 2008).
Innovation intensity investigates the sources and determinants of innovation, while innovation
productivity studies the output of R&D activities. To be consistent with the purpose of this paper
and the notion that innovation intensity does not fully account for the direct results of innovation,
we focused on the output side which is innovation productivity. The innovation intensity was
controlled for, however, to avoid an alternative explanation.
2 The minimum observation per firm was 5, and the maximum was 8. The average of the number of observation per firm was 7.7.
3 Increase or decrease in corporate scope requires substantial effort, time, and resources in the process of restructuring organizations. A four year span was chosen to reflect the change in innovation productivity both during and after the restructuring process.
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(DU). The entropy measure was calculated from COMPUSTAT business segment data each
target year.
Organizational contingencies. For three organizational contingency variables, we
measured search scope for search behavior, and knowledge stock and R&D capability for
technological capital. First, technological search scope refers to the degree to which a focal
patent cites prior art from a variety of technological domains. Our measure is the same as the
‘originality’ measure in the paper by Trajenberg, Henderson, and Jaffe (1997). The greater the
search scope, the broader the technological roots of the underlying research (Trajtenberg et al.,
1997). In other words, the more diverse the technologies cited by a focal patent, the broader was
the search effort underlying the patent (Argyres & Silverman, 2004). We calculated the search
scope of firm i in year t from the following equation:
Search Scopeit = NCit
(NCit − 1){1 − ��
NcitediktNcitedit
�2Ni
k=1
}
,where Ncitedit is the total number of citations that firm i made at year t, Ncitedikt is the total
number of citations that firm i made in the three-digit technological category k in year t, and NCit
is the number of total citation that a focal company i has made in year t. Technological search
scope as the Herfindahl-type measure suffers from bias due to the count nature of the underlying
data. The bias occurs when a patent with a small number of citations has a non-zero probability
that no citations will actually be observed. To remedy this bias, we applied the procedure
developed by Hall et al. (2001), which involves the search scope measure multiplied by N/(N-1).
Overall, the average value in the four prior years was used to represent firm-level search scope.
Second, knowledge stock was measured by the total number of patents obtained by a firm
in the four prior years as an indicator of a firm’s cumulated technical capital (Ahuja, 2000). The
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past innovative activities and capabilities serve as signals of a firm’s technical competences
(Arora & Gambardella, 1990). It is expected that the more patents the firm possesses, the greater
the firm’s knowledge store is.
Third, innovation impact was used to measure R&D capability. Innovation impact
indicates the degree to which a firm’s patents are subsequently cited by patents of other firms
(Miller et al., 2007a). Since higher impact leads to more economic benefits (Harhoff, Narin,
Scherer, & Vopel, 1999), impact itself is a good measure of R&D activity. When a firm has had
higher impact in the past, it indicates that the firm has strong capabilities for developing new
innovation. Innovation impact was calculated by measuring the average number of citations
received from others during four years before the focal year; thus a higher score, indicates
stronger impact. The equation to calculate innovation impact of firm i in year t is:
Innovation Impactit =1
NPit(0.05 + �
NcitingijtAvgcitingt
)Nj
j=1
,where Avgcitingt is the average of citations received from other firms in the application year t,
Ncitingijt is the number of citations that firm i’s patent j received from other firms in year t, and
NPit is the total number of patent that firm i applied in year t. To handle the truncation problem,
the fixed effects approach (Hall et al., 2001) was used. By dividing the number of citations
received by the yearly mean (i.e. Avgcitingt), the approach controls for the year effect in each
patent. Since many firms had 0 citations, a constant of 0.05 was added to the equation. The
value was divided by the number of patents applied for by firm i so that the overall value
represents the firm-level impact.
Control variables. We included control variables to avoid an alternative explanation. All
control variables were measured at the target year. First, R&D intensity (Chen, 2003; Cohen &
Levinthal, 1990) has been considered innovation input that may influence innovation output.
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R&D intensity was measured by the ratio of R&D expenses to total assets. It represents the
firm’s inputs and efforts into the innovation process. Second, a firm’s financial performance may
influence innovation productivity (Chen & Miller, 2007). Performance was measured by return
on assets (ROA) which is the ratio of income to total assets.
Third, three types of slack resources were controlled for since slack can abet innovation
(Nohria & Gulati, 1996). The three measures for slack include recoverable slack, potential slack,
and available slack (Bromiley, 1991; Singh, 1986). Recoverable slack was measured as the
selling, general and administrative expenses to sales ratio; potential slack was measured as the
debt to equity ratio; and available slack was measured as the current ratio (Bergh & Lawless,
1998; Bromiley, 1991; Singh, 1986). Data to measure slack resources were collected from
COMPUSTAT.
Fourth, the model also included firm size measured as the logarithm of the number of
employees. Previous studies have reported a positive effect of size on innovation (e.g. Chaney &
Devinney, 1992). Furthermore, larger firms may naturally hold more patents.
Fifth, there are external factors that make it more or less attractive to introduce new
technology, such as market conditions and the general economic environment. These factors are
changing over time and may significantly influence the patenting activities. Thus, the year effect
was controlled for by including year dummies (1991-1997).
Analysis
The unit of analysis was the firm’s level of innovation. Since the dependent variable,
innovation productivity, consisted of at least five observations (i.e. a natural log of all patents
applied for) for each firm during the 1991-1998 time period, we used a longitudinal regression
model with fixed effects for a cross-sectional time series panel data. We tested for serial
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autocorrelation using the Hausman test. The null hypothesis stating that the difference in
coefficients in the fixed effects model and the random effects model is not systematic, was
rejected (p <0.001). This suggests that a fixed effects model is more appropriate for the analysis
(Benner & Tushman, 2003; Hsiao, 2003; Miller & Eden, 2006), in which we used Xtreg, fe
command in STATA. To correct for potential variable bias, time-varying firm specific factors,
including R&D intensity, size, performance, and slack resources were included as control
variables. Year dummies were also used to control for the time-invariant omitted-variable effect.
Overall, this model allows us to test the effect of organizational contingencies on the relationship
between types of diversification and innovation productivity after controlling for all potential
biases. All continuous variables were centered in the analysis before testing the effect of
interaction terms.
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TABLE 2.1 Descriptive Statistics and Correlation Matrix
Mean S.D. 1 2 3 4 5 6 7 8 9 10 11 12 1. Innovation 4.22 1.56 1 2. ROA 0.06 0.08 0.08 *** 1 3. Available Slack 2.29 1.58 -0.25 *** 0.21 *** 1 4. Potential Slack 0.6 1.22 -0.02 -0.27 *** -0.20 *** 1 5. Recoverable Slack 0.27 0.13 0.06 ** 0.06 ** 0.16 *** -0.08 *** 1 6. Size 2.16 1.25 0.62 *** -0.02 -0.47 *** 0.12 *** -0.21 *** 1 7. R&D Intensity 0.06 0.05 0.23 *** -0.05 * 0.17 *** -0.16 *** 0.47 *** -0.23 *** 1 8. DR (related div.) 0.26 0.45 0.14 *** 0.00 -0.18 *** 0.11 *** -0.06 * 0.29 *** -0.11 *** 1 9. DU (unrelated div.) 0.23 0.36 0.04 † -0.06 * -0.19 *** 0.09 *** -0.26 *** 0.33 *** -0.29 *** 0.13 *** 1 10. Search Scope 0.78 0.16 0.56 *** -0.06 ** -0.23 *** 0.01 -0.06 * 0.48 *** 0.02 0.16 *** 0.15 *** 1 11. Knowledge Stock 220.83 608.83 0.59 *** -0.01 -0.15 *** 0.01 -0.02 0.48 *** 0.07 ** 0.23 *** 0.06 * 0.30 *** 1 12. R&D Capability 1.01 0.66 0.26 *** 0.05 * 0.17 *** -0.09 *** 0.20 *** -0.15 *** 0.40 *** -0.16 *** -0.24 *** -0.04 † 0.06 ** 1
N=1905 (248 firms during at least 5 years from 1991 to 1998) † p < .10 * p < .05 ** p < .01 *** p < .001
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TABLE 2.2
Results of Regression Analysis with Fixed Effects Predicting Innovation Productivity
Model1 Model2 Model3 Constant 3.95 *** 3.96 *** 3.98 *** ROA 0.23 0.26 0.29 † Available Slack -0.01 -0.01 -0.01 Potential Slack 0.00 0.00 0.00 Recoverable Slack -0.36 -0.27 -0.30 Size 0.28 *** 0.25 *** 0.23 *** R&D Intensity -0.72 -0.76 -0.47 Year Dummies 7 *** 7 *** 7 *** DR -0.03 0.04 DU 0.15 * 0.21 * Search Scope 0.35 ** 0.39 *** Knowledge Stock 0.14 **a 0.20 ***a R&D Capability 0.07 * 0.18 *** DR x Search Scope -0.68 *** DU x Search Scope 1.13 *** DR x Knowledge Stock 0.03 a
DU x Knowledge Stock 0.11 a
DR x R&D Capability 0.15 ** DU x R&D Capability 0.45 *** R2 Within 0.11 0.13 0.16 R2 Between 0.33 0.47 0.51 R2 Overall 0.31 0.43 0.48 F-value 16.35 *** 13.47 *** 13.09 *** F test that all u_i=0 46.36 *** 27.70 *** 27.78 ***
N=1905; number of firms =248 a The regression coefficients were multiplied by 1000 in the purpose of report. † p < .10 * p < .05 ** p < .01 *** p < .001
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RESULTS
Table 1 displays the descriptive statistics and correlations for each of the variables in the
regression model. Since there were no high correlations between any pair of independent
variables, multicollinearity was not the main concern (see Table 1).
Table 2 shows the results of the longitudinal regression model with fixed effect. Model 1
included all control variables; model 2 added related/unrelated diversification (i.e. DR and DU)
and all organizational contingencies; and model 3 tested hypotheses 1 to 4 by including all
interaction terms. The results indicate the importance of controlling for firm-level fixed effects.
The null hypothesis that all unobserved firm-level characteristics are equal was rejected
(F=46.36, p<0.001 in model 1; F=27.70, p<0.001 in model 2, and F=27.78, p<0.001 in model 3)
thereby providing support for the use of the fixed effects model. The strong year effects (p<0.001)
also indicates the importance of testing longitudinal data. Compared with model 1 with only
control variables, model 3 with organizational contingencies explained much more of the
variance in innovation productivity (R2=0.16, and F=13.09, p<0.001).
Hypothesis 1 and 2 proposed the contingency effect of searching behavior on the
relationship between each type of diversification strategy and innovation productivity. The
results in model 3 supported these hypotheses. The coefficient for the interaction term between
related diversification and search scope (DR x Search Scope) was negative and strongly
significant (β = -0.68, p<0.001). Also, the coefficient for the interaction term between unrelated
diversification and search scope (DU x Search Scope) was positive and also strongly significant
(β = 1.13, p<0.001). The interpretation is that a strategic fit between search behavior and the
types of diversification strategy is positively related to innovation productivity.
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Hypothesis 3 and 4 predicted that technological capital plays a role in organizational
contingency such that both types of diversification lead to higher innovation productivity when
the firm has a large knowledge store and high R&D capability. The results in model 3 provided
support for hypothesis 4 but not for hypothesis 3. The results in Model 3 show that although
knowledge store increases innovation productivity (β = 0.20, p<0.001), the coefficients for the
interaction terms (DR x Knowledge Store and DU x Knowledge Store) were not significant. It
means that simply having more knowledge and technology does not help a firm develop more
technology as it increases its level of diversification. Consistent with hypotheses 4, Model 3
shows that R&D capability positively moderates the effect of diversification on the development
of new technology (β = 0.15, p<0.05 for related diversification, and β = 0.45, p<0.001 for
unrelated diversification).
DISCUSSION AND CONCLUSION
Research on the relationship between diversification and innovation has provided
inconclusive results (Ahuja et al., 2008). In this paper, we identified organizational contingences
to explain the conditions under which a diversified corporation has higher innovation
productivity. The empirical results provide support for the argument that a strategic fit among
search, diversification, and technological capital increases a firm’s innovation productivity,
while a misfit decreases innovation output. Thus, a related diversified firm improves its
innovation when it pursues local search. This focused search should help the firm build on its
core competencies and develop new knowledge. Local search prevents a firm from not only
losing sight of its core competencies but it also helps a firm from being overwhelmed by the
numerous opportunities arising in a diversification strategy. As a result, firms using a related
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diversification strategy with local search are more likely to select the R&D projects that are
related to their existing core technologies and improve their overall innovation productivity.
In the case of distant search, firms that pursue knowledge and resources from a distant
industry may enjoy the opportunities available from the acquisition of businesses in a different
industry. We find that unrelated diversified firms enjoy higher innovation when they engage in
distant search. It appears that those firms are interested in the integration of technologies across
industries, and unrelated diversification allows the firms to obtain these opportunities (See chart
a) and b) in Figure 2). Firms using higher levels of unrelated diversification may be willing to
expend greater resources after an acquisition to promote new innovation.
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FIGURE 2.2
Effect of Organizational Contingencies on Innovation Productivity
a) The strategic fit between search scope and related diversification
b) The strategic fit between search scope and unrelated diversification
Innovation productivity
Unrelated Diversification
Local search
Distant search
Low High
Innovation productivity
Related Diversification
Local search
Distant search
Low High
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FIGURE 2.2 (continued)
c) The strategic fit between technological capital (R&D capability) and related
diversification
d) The strategic fit between technological capital (R&D capability) and unrelated diversification
Innovation productivity
Unrelated Diversification
High R&D capability
Low R&D capability
Low High
Innovation productivity
Related Diversification
High R&D capability
Low R&D capability
Low High
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Also, technological capital is a valuable resource that enables the firm to improve
innovative performance as it diversifies into either a related or unrelated industry. The results
demonstrate that the opportunities for innovation generated from both types of diversification
strategies can be exploited only when a firm has high technological capital to begin with.
However, firms that are already well equipped with technological capital also may have lower
incentives to recombine technologies (Ahuja, 2000). Therefore, technological capital does not
simply reflect the positive effect on the relationship between diversification and innovation
productivity. Even though more opportunities for knowledge recombination are available with
increased diversification, only a firm that has high existing technological capital and is willing to
expend the effort to recombine technologies (through higher R&D intensity) can take advantage
of the opportunities (see chart c) and d) in Figure 2). Overall, this paper suggests that diversified
firms can improve their innovation productivity when they achieve a strategic fit between
diversification and organizational contingencies.
This paper builds on extant theory in four ways. First, this paper is one of a few that
applies a contingency approach to research the effect of corporate strategy on innovation. The
notion that changes in R&D investment caused by the change in corporate scope directly and
indirectly affects innovation output, may overstate the effect of corporate scope. Firms explore
and exploit opportunities so differently that the patterns of past behavior and accumulated
resources have a significant impact on innovation efforts and output. The findings in the analysis
confirm that firm-specific factors (i.e. past behavior and resources) should be taken into account
to understand how corporate strategy influences innovation output.
Second, the findings imply that a firm’s innovation efforts differ from innovation
productivity. Although corporate scope influences innovation efforts (i.e. R&D intensity), it is
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still unclear if this effect is derived from economies of scope in R&D activities, or if a necessary
investment in organizational coordination and integration reduces resources that can be used for
R&D projects. The assumption that innovation intensity is exogenous to the corporate strategy
contrasts previous literature which mainly discusses how diversification strategy influences
innovation intensity. Future studies may derive more useful research ideas from this perspective.
Third, the current study implicitly emphasizes the importance of absorptive capacity
(Cohen & Levinthal, 1990) for a diversified firm, which refers to a firm’s ability to value,
assimilate, and apply knowledge obtained from external sources. In this sense, R&D capability
of a diversified firm can be interpreted as absorptive capacity. Access to external resources
through acquisition does not support R&D activities unless the firm possesses technological
know-how (i.e. absorptive capacity) for exploiting the opportunities.
Lastly, both related and unrelated diversification strategies were examined as well as
their relationship with innovation. The literature on innovation and diversification has mainly
investigated related diversification, and has paid less attention to unrelated diversification. By
including both of the components of the entropy measure, this paper contributes to the study of
unrelated diversification strategy and suggests that strategic fit accounts for the variation in
innovation for unrelated-diversified firms, as well as that in related diversified firms.
The findings also provide implications to managers in a diversified firm. When a firm
explores a new technology through diversification, managers may be concerned about a potential
negative effect on the company’s ability to develop new innovations afterwards given the
increased complexity, potential inflexibility, and information overload. However, the firm will
be able to improve its innovation if it possesses strong R&D capability and if its search patterns
are consistent with the nature of its corporate strategy. Thus, it is important to evaluate if a
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diversified firm has strong internal R&D capability and if there is consistency between a firm’s
strategy and R&D activity. In addition to these conditions, investment in organizational
coordination and integration should be accompanied with investment in innovation in order to
achieve economies of scope and effectiveness. After finishing coordination and integration
activities, the firm should refocus on R&D activities to exploit the opportunities from richer
knowledge stores and resources.
There are a few limitations in this paper. First, using patent data as a measure of
innovation inherently involves some limitations as discussed in the methods session. Second, the
causal relationship among diversification strategy, search behavior, and innovation was not
specified. On the one hand, scholars have examined the causal direction from search behavior or
innovation to diversification. For example, Chang (1996) argued that the search for new
combinations of knowledge may account for patterns of a firm’s strategic actions, such as
acquisition, restructuring, and divestitures. Silverman (1999) suggested that the technology
classes in a firm’s patents predict the future industry-related direction of diversification. On the
other hand, there has been research examining the causality of diversification on innovation. For
example, Hoskisson and Johnson (1992), and Hoskisson and Hitt (1988) suggested that firms
which increased organizational scope reduced R&D intensity by shifting from strategic control to
financial control. However, Rodriguez-Duarte et al. (2007) suggested a bidirectional relationship
between innovation and diversification. Thus, future search should seek to probe this issue
further.
Lastly, environmental contingencies were not considered. Organizational contingency
variables are part of all possible conditions that influence the relationship between innovation
and diversification. Environmental uncertainty, industry competitiveness, and the economic
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situation are external conditions that may affect the relationship. In addition to the identified
organizational contingency variables, future research could contribute to the literature in
diversification and innovation areas by identifying important environmental elements which have
not been already identified.
In summary, this paper provides new insight to understand the relationship between
diversification strategy and innovation. Building on a contingency approach, we have
emphasized the importance of strategic fit among the types of diversification, search behavior,
and technological capital to improve innovation productivity.
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CHAPTER THREE
PAPER TWO
RESOURCES AND ORGANIZATIONAL BOUNDARY EXPANSION IN THE EARLY
STAGE
ABSTRACT
Search and renewal strategies differ based on the life-cycle stage of the firm. An incumbent
generally expands via acquisition. However, a firm that has recently held an Initial Public
Offering may use different strategies contingent on their unique resources and liabilities. For
example, the firm may rather focus on the development of internal factor markets for meeting
legitimacy demands. The priorities of a young firm may be further refined in the face of
environmental contingencies resulting from the multiple liabilities and constraints of the market.
We found that young firms with R&D resources create competencies by developing internal
factor markets, while those with financial resources preferred to engage in boundary expansion
activities. Further, we found that the boundary expansion activities of young firms are
constrained in the presence of environmental uncertainty and strong competition.
Keywords:
Capability, resources, boundary expansion, environmental contingency
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INTRODUCTION
Firms expand their boundaries in response to environmental contingencies and to the
availability of resources (Iyer & Miller, 2008; Schilling & Steensma, 2001). The need to search
for and renew competencies prompts firms to expand their boundaries through a variety of
modes including acquisitions, alliances, and joint ventures. Acquisition is one of the more
extreme modes of boundary expansion whereas alliances and joint ventures are more moderate
(Poppo & Zenger, 1995; Steensma & Corley, 2001). Boundary expansion via such modes
provides opportunities to gain resources as well as numerous competitive and comparative
advantages (Santos & Eisenhardt, 2005). However, young firms that have recently undergone
Initial Public Offerings (IPO)4
Young firms’ unique resources and constraints may have a bearing on their search and
renewal and organizational boundary decisions. They may focus on the development of internal
factor markets in order to build capability and meet legitimacy demands. Alternatively, they
may respond to the substantial pressures they face by seeking competencies (via modes such as
acquisition or alliances) from the market consistent with the strategies of ‘upstream’ incumbents
(Robinson & McDougall, 2001).
may have different priorities based on their unique position in the
market. On the one hand, such firms possess unique resources and need additional investment for
internal growth; on the other hand, they face close and constant scrutiny from the market and
must continue to validate their claims of resource , role, and endorsement legitimacy (Higgins &
Gulati, 2003; Robinson & McDougall, 2001).
4 IPO firms are organizations that offer their stock to the public market for the first time, when they are moving from private to public ownership. This move requires a substantial effort, particularly on the part of a company’s top management team.
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We begin with the premise that a young firm may have different priorities in making
boundary expansion decisions than incumbents. Early in the life cycle a firm may not want the
burden of organizational and structural complexities inherent in some modes of boundary
expansion. The organizational boundary literature considers capability and competence
development an important motive for boundary expansion. However, it is unclear how various
resources influence boundary expansion and how young firms’ preferences differ from those of
incumbents. We begin by taking a resource based view (RBV) and focusing on the resource
portfolio to explore the boundary expansion activities of the young firm.
The young firm generally faces multiple liabilities and constraints in the market, and the
firm’s priorities may be further refined in the face of these environmental contingencies.
Although not mechanistically determined (Aldrich, 1999; Aragon-Correa & Sharma, 2003),
environmental contingencies substantially influence major strategic decisions. For example,
environmental uncertainty can dampen acquisition activity by placing in doubt the value of new
resource combinations (Hoskisson & Hitt, 1990). Further, when pursuing search and renewal
activities (Aldrich, 1999; Scherer, 1980), firms are constrained by competitive dynamics. At the
same time, strategic factors such as slack also influence boundary expansion decisions and the
choice of expansion modes (Iyer & Miller, 2008; Patzelt, Shepherd, Deeds, & Bradley, 2008).
A more complete picture of the young firm’s competency search strategies and boundary
expansion choices would emerge if, in addition to contingencies, we considered the firm’s
unique resources. The purpose of this paper is to examine the impact of two key resources and
two environmental contingencies on the young firm’s boundary choice. Specifically, we explore
whether young firms should cultivate internal factor markets or expand organizational
boundaries to renew competencies in the face of contingencies. The two strategic resources
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considered are R&D and financial. We regard environment and industry as the environmental
contingencies that influence the boundary decisions of young firms.
The paper is organized as follows. First, we discuss the literature on young firms’
boundary expansion decisions, particularly regarding investment in and development of existing
competencies versus searching for new competencies beyond the firm’s boundaries. Next, we
discuss the influence of unique resources and capabilities on young firms’ preferences regarding
boundary expansion; we develop testable hypotheses regarding these strategic choices in the
presence of environmental contingencies. Third, we detail the hypothesis testing methodology
based on a sample of 158 young, high technology firms. We conclude with a discussion of the
results, implications, and future research directions.
THEORETICAL BACKGROUND
Organizational boundary refers to “the demarcation between the organization and its
environment” (Santos & Eisenhardt, 2005). The resource-based view (RBV) (Barney, 1991;
Penrose, 1959) posits that possession of valuable, rare, inimitable, and non-substitutable (VRIN)
resources is a source of competitive advantage (Barney, 1991). The young firms’ organizational
boundaries can be dynamically determined prior to an IPO by identifying environmental
opportunities that will allow the firm to gain a competitive advantage from their unique resources.
A fit between a firms’ resources and the environment delivers market share and enhances
legitimacy (Powell & DiMaggio, 1991). In the context of young firms, such a fit maximizes the
value of the resource portfolio and provides competitive advantage.
According to Poppo (1995), firms generally make a boundary choice between internal
(make) and external (buy /cooperate) markets. Cultivating the internal market allows firms to
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develop competencies by investing in internal R&D projects and has the advantages of reduced
information complexity and increased flexibility (Williamson, 1985). Expansion by venturing in
external markets provides opportunities to gain needed resources and capabilities in the market
through acquisition and inter-organizational relationships; this has the potential advantage of
new search, improved efficiency, and greater adaptability. Building on the RBV5
Firms set their boundaries at the point that maximizes the value of their resource portfolio
with a focus on firm-specific, resource-based advantages for organizational growth (Chandler,
1977; Helfat, 1997; Santos & Eisenhardt, 2005). Prior literature suggests that new and young
ventures often ensure viability by exploiting the knowledge capital of the parent firm which they
subsequently increment through internal R&D (Gompers, Lerner, & Scharfstein, 2005; Levinthal
& March, 1993). Klepper and Sleeper (2005) found that nearly every venture in the laser
industry used internal R&D to improve lasers produced by the parent firms. Chatterji (2009)
found that such ventures generally outperform other entrants in an industry and, arguably, had no
, the capability
perspective argues that a firm’s boundary expansion choice is associated with its resource
portfolio and emphasizes value maximization resulting from engagement in activities within or
beyond the organizational boundary (Barney, 1999; Leiblein & Miller, 2003).
5 A consensus is building in the management literature that the term ‘resources and capabilities’ could be used in parallel (Barney & Clark, 2007) because distinctions between these terms are likely to “become badly blurred” in practice (Barney, 2007). According to Barney and Clark (Barney & Clark, 2007, pp. 23-24) “in principle, distinctions among terms like resources, competencies, capabilities, dynamic capabilities…can be drawn. …(however) they share the same underlying theoretical structure…(thus) the terms resources and capabilities will be used interchangeably and often in parallel (pp. 23-24)….what makes resources a potential source of sustained competitive advantage are the same as what makes capabilities…potential sources of competitive advantage (p. 249).” In essence, though we acknowledge the academic distinctions between resources and capabilities made by a number of scholars (e.g., Amit & Schoemaker, 1993, among others; Makadok, 2001; Teece, Pisano, & Shuen, 1997), we use the terms resources and capabilities together.
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need to seek competencies beyond their boundaries early in the life cycle. Thus, if the resources
and capabilities in the internal market are valuable, rare, inimitable, and non-substitutable, firms
can gain competitive advantage by exploiting just these resources and may not need to seek
outside competencies (Barney, 1991, 2001).
Concomitantly, young firms face a number of liabilities and resource constraints
requiring them to balance competency development with efficiency in their operations and
transactions. Environmental contingencies play a critical role in boundary expansion (Santos &
Eisenhardt, 2005, 2009). In the face of contingencies, the manipulation of pre-IPO resources and
development of new resource combinations in the form of capabilities becomes crucial6
6 Capabilities development reflects specific organizational processes that manipulate resources for creating value by building new resources inside the firm, accessing resources from outside the firm, recombining existing resources in new ways, and eliminating no longer valuable resources (Eisenhardt & Martin, 2000; Teece et al., 1997).
. In
uncertain environments, firms shape horizontal and vertical boundaries by blending existing and
new resources into fresh combinations. Uncertainty can provide opportunities for combining
path-breaking and path-dependent resources (Santos & Eisenhardt, 2005). Firms often expand
their boundaries for the co-evolution of resources with environmental opportunities. Karim and
Mitchell (2000) found that managers of U.S. medical firms use acquisitions to alter horizontal
boundaries. Young firms may engage in path-breaking expansion into more distant domains
using resouce combinations from both the focal and acquired firms. Even established firms
explore internal markets before looking beyond their boundaries. The CEO of Philips notes: “we
used to start by identifying our core competencies and then looking for market opportunities.
Now we ask what is required to capture an opportunity and then either try to get those skills via
alliances or develop them internally to fit” (The Economist, Feburary 7, 2002).
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Young firms must make a strategic choice to either continue exploiting their own
resources and competencies or to explore new competencies from the market. Building on the
resources- and -capabilities perspective, the following section looks at how a firm’s resource
portfolio influences boundary expansion choices between internal and external markets.
HYPOTHESES DEVELOPMENT
Boundary decisions to gain access or develop resources and capabilities are contingent on
the firm’s current resources and the resource requirements of the industry (Argyres, 1996). The
literature suggests that various types of resources influence boundary expansion activities, such
as strategic alliances and inter firm linkages (Ahuja, 2000; Das & Teng, 1998). For example,
Mishina, Pollock, and Porac (2004) found that financial and human resources are directly and
indirectly associated with product and market expansion. Firm-specific resources and capabilities
(e.g., knowledge, proprietary research and innovations) are more likely to be coordinated within
firm boundaries (e.g., Miller, Fern, & Cardinal, 2007; Zander & Kogut, 1995). Therefore, the
firms’ resource- and capability-portfolio assumes importance in boundary decisions, particularly
for young firms, because their resources and capabilities influence the decision between
exploitation of existing capability and exploration of new capability from the market. Next, we
discuss the role of R&D and financial resources in boundary expansion decision.
R&D Resources and Boundary Choice
R&D resources7
7 The concept of R&D resources has similarities to that of technological capital. However, they are conceptually distinct. Technological resource narrowly refers to technologies (e.g. patents, and uncodified technologies) pertinent to its business and R&D, while an R&D resource includes
include expensive equipments, skilled researchers, continuous support,
technological capital (e.g. patent), and substantial investments. Montgomery and Hariharan
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(1991) found that higher R&D investment is related to greater diversification and is an outcome
of boundary expansion activities. This may not be true, however, for firms that have recently
gone public. The young firm’s boundary expansion strategy is influenced by their R&D
resources and differs from incumbents’ boundary preferences for a couple of reasons. The newly
public firm is obligated to meet the investor expectations for R&D investment. New ventures,
go public to raise investment capital, and the potential value of intangible assets plays a major
role in the firm’s valuation (Arkebauer, 1991; Certo, 2003; Nelson, 2003). Prior to an IPO, the
new ventures signals investors and the market to highlight the promise of their promising
technologies, patents, R&D, and human capital (Certo, 2003; Grabowski & Vernon, 1990;
Graves & Langowitz, 1993; Nelson, 2003). The new ventures must continue to build on these
signals after going public. The post –IPO stage is one of transition in terms of structure and
governance. In this phase, they have an opportunity to focus on the exploitation of accumulated
intellectual capital, patents, and R&D capabilities and to try to lead their product-market (Deeds,
Decarolis, & Coombs, 1997; Jain & Kini, 2000). Hence, TMTs—who have already invested
large sums in the propriety technologies favored by external stakeholders—would rather exploit
this pre-existing intellectual capital through continued investment rather than expand their
boundaries (e.g., acquire a new firm) and deal with the associated structural and governance
complexities.
A second reason for the different boundary preferences of young firms is that the internal
market may be more beneficial to young firms with considerable R&D resources. Further,
any resources related to R&D activities. Broadly, R&D resources include technological, human, and financial resources as well as any physical resources that support R&D. From the capability perspective, possession of technological resource may not be sufficient to represent a firm’s potential R&D capability.
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developing technologies within firm boundaries offers better control over property rights and
issues of appropriability than does negotiating for technologies through acquisitions. Although
choosing to develop technologies within the firm’s boundaries decreases exposure to
opportunistic behavior, the growth of the strategic factor market via R&D investments promotes
synergy, complementarity, and learning within business units in the hierarchy (Karim & Mitchell,
2000). The TMT of a young firm may prefer internal R&D over acquisitions (for both
appropriation and coordination issues) given the constraints on managerial time, attention, and
resources (Karim & Mitchell, 2000). Further, research and development divisions that grow from
within have better communication and coordination both within and across organizational
functions and hierarchies.
In addition, internal R&D investments develop strategic factor markets for the creation of
innovative product-markets for long term success (Thompson & Strickland, 1980). Because
firms’ innovation strategies often build on the absorptive capacity developed over time by
internal R&D (Cohen & Levinthal, 1990), the existence of strategic factor markets has important
implications for the development of technological strategy and choice of product-markets
(Burgelman, 1986; Hoskisson & Hitt, 1990). Young firms need to develop such absorptive
capacity sooner rather than later because they are in the early stage of life cycle. Internal R&D
investment is higher priority than acquisitions from the external market. Even after developing
large absorptive capacity, young firms still have less incentive than incumbents to expand
capabilities through acquisitions or inter-firm relationships. The process of capability
development tends to be path dependent (Leonard-Barton, 1992). Past R&D successes are likely
to lead to stick on its preference on in-house development. Proponents of the resource allocation
view suggest that resource allocation is a primarily internal process (Bower, 1970; Burgelman,
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1983a, 1983b). Founder preference for legacy projects may lead young firms to continue to focus
resource allocation on the internal factor market.
The need for resource and competency development is another reason for the different
boundary preferences of young firms. Young firms may first exploit resources from within
organizational boundaries or internal markets (Chandler, 1962); focus on internal aggregation of
resources; and efficiently use business units for resource and competency development (Galunic
& Eisenhardt, 1996, 2001; Siggelkow, 2001). Because internal markets provide synergy between
the development of resources and competencies and superior control and efficiency in the
process of innovation (Jacobides & Hitt, 2005; Santos & Eisenhardt, 2005), young firms may
create and maintain an optimal resource portfolio developed by R&D investments while reducing
complexity and increasing control and efficiency (Williamson, 1985). In a study of new ventures,
Santos (2003) found that entrepreneurs first develop resources around internal processes
reflecting resources and competencies and only later pursue boundary expansion. Within the IPO
context, given the advantages of expanding through the internal market, and considering the
order of capability development, we propose that young firms with heavy R&D investment
continue developing resources and capabilities internally rather than through boundary expansion.
Hypothesis 1. For young firms that have undertaken an IPO, R&D resources are
negatively related to boundary expansion activities in the initial post-IPO stage.
Financial Resources and Boundary Expansion
Although internal markets are a useful way for young firms to develop resources
and capabilities, they are costly and difficult to develop single-handedly (Barney, 1999).
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Developing capabilities involves a difficult to identify, unique historical condition.
Capability development is path dependent (Leonard-Barton, 1992) and requires
engagement with complex social networks. Finally, actions to develop capabilities may
be causally ambiguous (Reed & DeFillippi, 1990). Thus, firms are constrained from
developing capabilities on their own, and are lead to rely on external markets. The use of
external markets for this purpose via modes such as acquisitions or alliances has several
advantages over such efforts in the internal market. They include resource sharing, low
governance costs, resource reallocation, and increased market power (Hitt, Hoskisson,
Johnson, & Moesel, 1996; Walter & Barney, 1990). Use of the external market to gain
desired capabilities, however, is not risk free and requires substantial efforts. Among the
various types of resources, the most important to boundary expansion is financial (Iyer
& Miller, 2008; Santos & Eisenhardt, 2005).
Early-stage firms obtain financial resources in a number of ways, including
venture capital, banks, family, and IPO. Financial resources refer to liquid funding
(which is available for investment in new projects) and monetary-equivalent resources.
The resources are easily accessible and therefore usually support the firm’s growth
strategy (Penrose, 1959). Thus, financial resources provide a competitive advantage to
firms (Barney, 1991; Latham & Braun, 2008). The existence of liquid financial resources
demonstrate the firm’s ability to meet current capital needs and support operations
(Mishina et al., 2004). Young firms with sufficient financial resources have more options
and a different perspective on boundary expansion through acquisition, strategic alliances,
and joint venture. In the presence of adequate financial resources, young firms may be
motivated to engage in boundary expansion activities for the following reasons. After an
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IPO, firms generally have sufficient capital (e.g., net proceeds) to support boundary
expansion. The substantial cash infusion provided by an IPO can increase firm
performance and survivability. The TMT should decide how to deploy IPO resources.
Young firms may create value through vertical or horizontal boundary expansion by
exploiting excess valuable resources (Teece, 1982), or by intensifying exiting strategies.
Unlike R&D, financial resources enable young firms to engage in boundary expansion
gain access to additional resources and capabilities that are consistent with the firm’s
current capabilities, potentially fueling future growth.
A second motivation for boundary expansion in the presence of adequate financial
resources is that these if financial resources reduce the managerial risk that when the
scope of the firm broadens derived by broadening scope of firms. Managers deploy their
financial resources with the expectation of creating value, enabling them to consider a
broader range of strategic options. Financial resources can be used to purchase equipment,
employ expertise, build and expand plants, invest in R&D, and enhance operations (Amit
& Schoemaker, 1993). Because firm size and executive compensation are highly
correlated (Tosi Jr & Gomez-Mejia, 1989) and because diversification smoothes cash
flow and reduces employment risk (Amihud & Lev, 1981), mangers have incentive to
increase the size of the firm through boundary expansion.
Adequate financial resources also support the growth strategy of the firm through
boundary expansion (Kumar, 2009). With these resources, the top management team
(TMT) can take advantage of emerging opportunities in the market by acquiring
capabilities from others or by working with others to develop new competencies. There is
evidence that firms are more likely to expand their product lines through strategic
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alliances when they have greater financial resources (Garrette, Dussauge, & Castaner,
2008). Iyer and Miller (2008) also found that financial resources increase the probability
of acquisition. Because IPO firms are under strong demands for growth, they are less
likely to conserve and more likely to deploy available capital to support their growth
strategy. On the other hand, lack of financial resources constrains firm’s strategic options
because strategic decisions regarding organizational boundary expansion are risky and
uncertain. Therefore, we propose that financial resources facilitate boundary expansion in
young firms.
Hypothesis 2. For young firms that have undertaken an IPO, financial resources
are positively related to boundary expansion activities during the initial post-IPO
stage.
Role of Environmental Contingencies
In addition to availability of the above mentioned resources, environmental contingencies
(e.g., environmental dynamism and industry competition) also influence boundary expansion
decisions (Poppo & Zenger, 1998; Santos & Eisenhardt, 2005; Schilling & Steensma, 2001). We
now examine the roles of environmental uncertainty and competitive intensity in boundary
expansion decisions.
Environmental uncertainty. Firms adapt their strategies to match environmental changes.
A firm’s preference for internal or external markets in searching out new competencies changes
in the face of environmental uncertainty (Galunic & Eisenhardt, 2001; Gilbert, 2005). For a
young firm that has recently undertaken an IPO, market uncertainty is a primary contingency that
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must be considered before exploring opportunities for boundary expansion. In general,
uncertainty is the inability to predict or foresee events (Anderson & Tushman, 2001).
Uncertainty arises when a decision maker cannot reliably forecast future events based on the
available information. Uncertainty influences boundary decisions for several reasons. First,
young firms find it difficult to define the parameters of a changing environment and to find a fit
with the changing environment. Secondly, in an unpredictable environment, resources such as
knowledge and learning become obsolete more quickly and success is more difficult to
reproduce (Leonard-Barton, 1992; Tushman & O'Reilly, 2002). Third, TMT becomes risk averse
in an unpredictable environment. Risk-averse principals fear losing a dollar more than they value
gaining a dollar (Benartzi & Thaler, 1995; Kahneman & Tversky, 1979). Consequently, the less
predictable the outcomes, the more likely principals will avoid boundary expansion. Indeed,
Christensen and Bower (1996) found that risk-averse managers do not experiment with new
strategies or technologies unless benefits are guaranteed. In essence, faced with market
uncertainty, TMTs of young firms are averse to investing time, attention, or resources in
boundary expansion activities that are difficult to undo (Ghemawat, 1991).
Through the lens of transaction cost economics, uncertainty about the future is a source
of inefficiency in establishing business relationships with outside parties (Pisano, 1990). An
environment fraught with uncertainty makes it difficult to write, execute, or monitor contractual
arrangements (Leiblein & Miller, 2003; Walker & Weber, 1987; Williamson, 1985). It is
particularly difficult to specify boundary expansion contracts when uncertainty is high. An
increase in uncertainty makes it difficult to complete the due diligence required for boundary
expansion; the basic task of correctly evaluating potential boundary expansion modes becomes
challenging due to market fluctuations and the resulting risk of paying abnormally high
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premiums. Further, uncertainty exacerbates legal, structural, and governance related complexity.
Any boundary expansion contract remains incomplete under such circumstances, potentially
leading to a series of renegotiations. Each renegotiation opens the firm to the self-serving
behavior of the other party. The potential for self-serving behavior leads to intensive monitoring
and possible legal recourse, which, in turn, generates transaction costs and inefficiency. Thus,
according to transaction cost economics, high levels of uncertainty make boundary expansion
(through modes such as acquisition) problematic, pressuring firms to avoid such activities.
Young firms that have already invested in R&D and developed promising technologies
would be further discouraged from taking boundary expansion initiatives in the face of
uncertainty. Such firms would prefer to exploit intellectual capital, launch new products, and
counter uncertainty by creating market demand. They would focus on developing absorptive
capacity rather than acquire new firms and deal with the additional structural and governance
complexities. Uncertain times motivate young firms to enhance their internal R&D efforts over
boundary expansion modes for greater appropriation, control, and coordination from within the
hierarchy. In addition, environmental uncertainty decreases the external market preference of
young firms with excess of financial resources. When the future is unpredictable and unstable,
managers do not take the considerable risk of boundary expansion; they are unwilling to make
bold decisions, preferring to manage their careers in less risky ways. Instead, they back internal
R&D projects where trajectory and demand are assured. In sum, uncertainty makes difficult for
young firms to expand their boundaries.
Hypothesis 3. For young firms that have undertaken an IPO, environmental
dynamism in the industry moderates the relationship between R&D resources and
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boundary expansion such that when the level of environmental dynamism is high,
R&D resource is more negatively related to boundary expansion.
Hypothesis 4. For young firms that have undertaken IPO, environmental
dynamism in the industry moderates the relationship between financial resources
and boundary expansion such that when the level of environmental dynamism is
high, financial resources are less positively related to boundary expansion.
Industry competition. Competition provides pressures of inherent instability and change
(D'Aveni, 1994). Young firms with unique resources will be motivated to focus on their
competencies to exploit their intellectual capital and launch competitive products that create a
niche for them in the market. Further, in highly competitive environments, young firms must
respond to the environment and achieve a close fit with market demand; they must do so quickly
in order to survive. Because competitors create frequent discontinuities in the stable industry
structures, corporate forms, and business-specific resources (D'Aveni, 1994; Hamel, 2000;
McNamara, Vaaler, & Devers, 2003); competitive pressures offer little room for delay in
exploiting intellectual capital, resources, and capabilities. Competition pressures firms to rapidly
exploit resources, capabilities, and core competencies, giving managers little time or opportunity
for boundary expansion.
To be competitive, young firms with R&D resources would focus on developing new
competencies and absorptive capacity in-house, rather than become involved in the complexities
of building inter organizational relationships or acquiring another firm. Under competitive
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pressures, the risks of technology spillover and espionage motivate young firms to take greater
control and appropriation which are the characteristics of hierarchy.
In contrast, sufficient financial resources play the role of slack, giving the firm added
flexibility. Under strong competitive pressures, the young firm’s preference for external markets
is more pronounced. Choosing an external market gives the young firm access to the resources
and capabilities of other firms. Through external markets, young firms are able to enter niche
markets or deal with competitive pressure by increasing their market power. Competitive
industries offer fewer opportunities for growth. Working with others and acquiring another firm
would be of the best choice, even for post IPO firms with sufficient financial resources.
In sum, in the face of competitive pressures, young firms that have developed superior
R&D resources should focus on enhancing their existing capabilities in house. In contrast,
adequate financial resources provide young firms with some leeway for boundary expansion
initiatives in face of competition.
Hypothesis 5. For young firms that have undertaken an IPO, industry competition
moderates the relationship between R&D resources and boundary expansion such
that when the level of competition is high, R&D resources are more negatively
related to boundary expansion.
Hypothesis 6. For young firms that have undertaken an IPO, industry competition
moderates the relationship between financial resources and boundary expansion
such that when the level of competition is high, financial resources are more
positively related to boundary expansion.
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METHODS
Data and Sample
The initial sample consisted of 175 IPO firms between 2001 and 2005. The firms were in
the U.S. high technology industry, which includes the two digit SICs 28 (chemicals and allied
products), 35 (industrial machinery and computer equipment), 36(electronics and other electric
equipment), 38 (instruments and related products), 48 (communications), and 73 (Business
services-software) (Bradley, Jordan, Yi, & Roten, 2001; Carpenter & Petersen, 2002; Loughran
& Ritter, 2004). The time frame of 2001to 2005 was selected to avoid selection bias. The number
of IPO firms in the late 1990s, when Internet bubble occurred, could cause unbalanced sample
sizes and possible over- or under-estimation of results.
We collected data from a variety of sources. The IPO data was collected from
prospectuses (i.e., 424b form) provided to the Securities and Exchange Commission (SEC)
electronic data gathering and retrieval system. Boundary expansion data were gathered from the
Securities Data Company (SDC) platinum, and other financial data were retrieved from
COMPUSTAT. After matching IPO, boundary expansion, and financial data, the final sample
included 1588
Measures
IPO firms from 2001 to 2005 in 41 4-digit SIC industries, consisting of 19, 18, 24,
63, and 34 firms in each year.
Dependent variable. This paper examines the organizational boundary activities of a
focal firm resulting from unique resources in the early stage. Therefore, organizational boundary
expansion activity was measured by the aggregated number of acquisitions, strategic alliances,
8 14 firms in the final sample could not be used in the analysis because of the lack of financial data or the unusual value (e.g. -838.2 of ROA). Three firms were excluded because the prospectuses could not be found for them.
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and joint ventures (Keil, Maula, Schildt, & Zahra, 2008) initiated by a focal firm four years after
an IPO. This measure captures the organizational boundary expansion intensity, in that the
higher the firm’s boundary expansion intensity, the more the firm acquires, engages in strategic
alliances, and forms joint ventures. The sample of IPO companies is belonged to relatively early
stage in the organizational life cycle. Forty-eight percent of the sample firms reported no
boundary expansion activities (zero). About 52 percent engaged in 1-11 (1 being the least and
11 the most) boundary expansion activities.
Independent variables. We had two independent variables: R&D resources and financial
resources. First, R&D intensity has been used as a proxy for technological resources by many
scholars (e.g., Hill & Snell, 1988; Montgomery & Hariharan, 1991). Although others use patent
portfolio for technological resources, the concept of resources in this paper is broader and
includes tangible and intangible resources that support R&D activities. Thus, we measured R&D
resources using R&D intensity, which is the value of R&D expenses divided by total assets.
Because more than 20 percent of young IPO firms in the sample did not have the amount of sales
in the early years of product development, we used total assets as the denominator rather than
total sales. We collected this data from the prospectuses of IPO firms.
Second, young firms may have sufficient financial resources to initiate new projects or
expand their organizational boundaries. We measured financial resources using the number of
months if the existing cash flows from operations, together with borrowings and net proceeds
from IPO, are sufficient to fund its working capital requirements in the future without raising
additional security. The data was collected from IPO prospectuses. The number of months varies
from 6 to 42. It is expected that the higher the number, the more financial resources the firm has.
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Organizational contingencies. Environmental uncertainty can be broken into three
dimensions (e.g. complexity, munificent, and dynamism) (Dess & Beard, 1984). To capture the
uncertain and volatile characteristics of environment, we used the environmental dynamism
dimension and measured it as the natural logarithm of sales figures were entered into quasi-time
series regressions with time serving as the independent variable. The antilog of the standard
errors of the resulting regression slope coefficients were then used to capture environmental
volatility (Dess & Beard, 1984; Keats & Hitt, 1988). For competition in the industry, literature
measured a firm level competitive intensity as the firm’s market share (e.g., Mezias & Boyle,
2005; Swaminathan, 1995).
To measure the level of competition in the industry, we used the inverse of the four-firm
concentration ratio obtained from the U.S. Census of manufacturers for the year of IPO. We
collected this data from COMPUSTAT. Each value represents environmental uncertainty based
on the four-digit SIC.
Control variables. We included several control variables to avoid alternative
explanations. First, we controlled for the use of proceeds if an IPO firm disclosure expansion-
related use of proceeds. IPO firms disclose how they intend to use the proceeds of the IPO.
Uses can be categorized as debt repayment; distribution to pre-IPO shareholders; expansion or
acquisitions; advertising, marketing, promotion, or sales; working capital; R&D; and general
corporate purposes (Leone, Rock, & Willenborg, 2007). This variable was dummy coded 1 if the
firm intended to use the proceeds for expansion (i.e. acquisition, joint venture, alliance, or
expansion); otherwise it was coded as 0. This data was collected from SDC Platinum and
prospectuses. Organizational boundary expansion may differ across industries. To control for
the unobserved industry effect, dummy variables based on two-digit SIC codes were included.
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The total number of patents was included in the model as a control variable. Patent data has
been used as a proxy for technological resources or competencies (Silverman, 1999).
Additionally, patent numbers may influence the young firm’s boundary expansion activities by
providing more opportunities to build interorgnaizational relationships.
We included year dummies to control for the possible influence of yearly trends in IPO
and acquisition. Founder and insider ratios in BOD were used to control for the influence of
governance on expansion decisions. CEO as a founder and board of directors (BOD) consisting
of large number of insider are more likely to prefer to internal market (Certo, Covin, Daily, &
Dalton, 2001). Founder effect was dummy-coded based on whether the CEO was a founder. The
insider ratio was determined from the number of insiders on the board of directors divided by the
total number of directors. Finally, we controlled for two firm specific factors: firm size
measured as the natural log of total assets at the time of IPO, and firm age as the difference
between foundation year and IPO year.
Analysis
Because the number of boundary expansion activities is constrained, and a number of
observations had a value of zero, we used the Tobit regression model to test the hypotheses.
Tobit regression works better with censored data, which may be left or right censored (Greene,
2003). In the Tobit model, the independent variables are tested if they influence the probability
that the dependent variable exceeds zero (or a given threshold value); the value of the dependent
variable is tested if it exceeds zero (Bowen & Wiersema, 2004; Helfat, 1994). All continuous
variables in the model were centered with mean to avoid multicollinearity problems between
variables (Aiken & West, 1991). This procedure also makes it easier to interpret the results.
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TABLE 3.1 Descriptive Statistics and Correlation Matrix a
Mean S.D. Min Max 1 2 3 4 5 6 7 8 9 1. Boundary expansion 1.41 1.96 0 11 1 ***
***
***
***
***
***
***
***
***
2. Firm size 5.48 1.48 2.08 10.71 0.14 † 1 3. Firm age 2.10 0.72 0 4.45 0.02
0.30 *** 1
4. ROA -0.29 0.50 -2.18 0.73 0.01
0.49 *** 0.26 *** 1 5. Number of patent 1.38 1.61 0 7.65 -0.03
0.00
0.09
-0.07
1 6. Insider ratio 0.57 0.11 0.25 0.86 0.00
0.29 *** -0.04
0.15 † 0.02
1
7. Environmental dynamism 1.12 0.19 1.01 2.84 0.03
0.17 * 0.06
-0.03
0.10
0.12
1 8. Industry competition 1.70 0.58 1 2.70 0.19 * -0.12
-0.18 * -0.12
-0.09
0.02
-0.29 *** 1
9. R&D resource 0.25 0.27 0 1.34 -0.10
-0.49 *** -0.18 * -0.68 *** 0.30 *** -0.16 * -0.05
0.26 *** 1 10. Financial resource 14.92 5.83 6 42 -0.03 -0.34 *** -0.05 -0.17 * 0.12 -0.24 ** 0.05 0.11 0.28 ***
a N=158 † p < .10 * p < .05 ** p < .01 *** p < .001
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TABLE 3.2
Results of Tobit Regression Analysis for Boundary Expansion a
Model 1 Model 2 Model 3 Constant 3.07 *** 2.96 *** 3.39 ***
Control variables Firm size 0.19
0.22
0.16
Firm age 0.06
0.02
0.20 ROA -1.19 + -2.29 *** -2.29 ***
Number of Patent 0.20
0.26 + 0.34 * Use of Proceed -0.15
-0.03
-0.29
Founder -1.14 * -1.13 * -1.00 * Insider ratio 0.29
1.18
0.89
Sic28 -2.20 ** -3.04 *** -2.96 *** Sic35 -3.36 ** -2.97 * -3.74 ** Sic36 -1.54 * -1.02
-1.54 *
Sic38 -3.03 *** -2.80 ** -4.09 *** Sic48 -4.78 ** -5.10 *** -4.99 *** Year01 -0.33
-0.78
0.26
Year02 -1.01
-1.08
-0.75 Year03 0.09
0.59
0.90
Year04 -0.47
-0.08
0.08
Direct effect Environment dynamism
1.05
-2.10 Industry competition
0.91 * -0.10
R&D resource
-3.44 ** -2.22 + Financial resource
0.13 ** 0.11 *
Two way interaction effect R&D resource X Environmental dynamism
-18.86 ** R&D resource X Industry competition
-8.20 ***
Financial resource X Environmental dynamism
-0.20 Financial resource X Industry competition
0.04
Log likelihood -254.77
-248.36
-242.82
Chi-square 31.28 * 44.10 ** 55.18 *** Chang in Chi-square 12.82 *** 11.08 ***
a N=158, † p < .10, * p < .05, ** p < .01, *** p < .001
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RESULTS
The descriptive statistics of all variables and correlations among dependent variables,
independent variables, and control variables are reported in Table 1. The correlation matrix
shows that there is no high correlation between any two variables, proving that multicollinearity
is not a problem in this model. We also did a more conservative check of multicollinearity using
robust regression analysis. The tolerance and variance inflation factor (VIF) demonstrate that
multicollinearity among the independent and control variables was not severe.
The results of the Tobit regression model are in Table 2. Model 1 includes all control
variables. In Model 2, direct effects were tested, and two-way interaction terms were included in
Model 3. All models were statistically significant (p<0.05). Model 3, with interaction terms,
significantly improved the model fit on Model 1 and Model 2 as indicated by the change in chi-
square (p<0.001). Hypothesis 1 proposes that R&D resources are negatively associated with
boundary expansion. The regression coefficient for R&D resource in model 2 was negative and
significant (β = -3.44, p<0.01). Thus, the results from Model 2 provide support of hypotheses 1.
As suggested, young firms with high R&D investment are less likely to build capability through
boundary expansion activities in the industry.
In hypothesis 2, we argue that higher levels of financial resources increase the levels of
boundary expansion activity. The coefficient associated with financial resource in Model 2 is
significant and positive (β = 0.13, p<0.01). Thus, hypothesis 2 is supported.
In hypotheses 3 to 6, we suggest that the relationship between unique resources and
boundary expansion activities depends on environmental contingencies in the industry. It is
expected that both environmental uncertainty and industry competition affect the young firms’
strategic choices in terms of boundary expansion. Model 3 in table 2 supports hypotheses 3 and 4
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(p<0.01 for hypothesis 3, and p<0.001 for hypothesis 4), but not hypotheses 5 and 6. Only, the
interactions between R&D resources and environmental contingencies have significant and
consistently negative coefficients.
To further explore the nature of these relationships, we plotted the two-way interactions
using ±1 standard deviation from the mean of environmental uncertainty and industry
competition (Aiken & West, 1991). The one standard above from the mean represents high level
of environmental contingency, and vice versa. The graph a) in Figure 1 shows that R&D
resources are more negatively associated with acquisition for young firms in highly dynamic
environments, than for those in stable environments. Graph b) can be interpreted to show that as
industry competition increases, boundary expansion activities implemented by young firms with
high R&D resources decrease. In stable environments with low industry competition, however,
R&D resources are less negatively related to acquisition, and the number of acquisitions,
alliances, and joint ventures increase. However, the relationship between financial resources and
boundary expansion is unaffected by environmental factors. Overall, the results are consistent
with the argument regarding two contingencies and R&D resources and show that with which
resources firms are more or less exploring outside of firm boundaries.
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FIGURE 3.1
Interaction Effects among R&D Resource, Environmental Dynamism, and Industry Competition
a) The Interaction Effect of Environmental Dynamism
b) The Interaction Effect of Industry Competition
High
Low
Boundary expansion
R&D resource
Low environmental dynamism High environmental dynamism
Low High
High
Low
Boundary expansion
R&D resource
Low industry competition High industry competition
Low High
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DISCUSSION AND CONCLUSION
Firms prefer different search and renewal strategies depending on their life-cycle stage.
Incumbents expand boundaries through acquisitions, alliances, joint ventures, and other means to
seek new competencies and renew existing competencies. However, there is a gap in the
literature regarding the preferences of young firms’ for various boundary expansion options
under contingencies—how young firms differ from incumbents in this regard and how their
unique resources and inherent liabilities affect their preferences. This study examines the
boundary choices made by young firms’. From the capability perspective, we suggest that the
unique resources of a young firm can explain patterns of organizational boundary expansion.
The results of this study, based on a sample of high technology firms, suggest that young firms’
boundary expansion decisions are consistent with the available, unique, resources they possess.
Young firms with substantial R&D resources are more likely to continue developing internal
capability due to the obligations and legitimacy needs of the IPO firm, the advantages of the
internal market, and the order of capability development. In industries such as biotechnology,
product development cycles are extremely long (seven to ten years) and the need for cash
investments is immense (Burrill & Lee, 1993). Continuous exploiting capability within
organization boundary is necessary and more preferred than exploring new capability in the
market.
In contrast, young firms with high financial resources prefer to take advantage of
environmental opportunities beyond their current organizational boundary through market
transaction mechanisms such as acquisitions, alliances, and joint ventures. Young firms need
continued funding to grow and prosper (Jain & Kini, 1999). Going public provides sufficient
capital to support the growth of a young. When managers identify opportunities in the market,
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they have strong incentive to exploit them using IPO capital. This strategic choice allows young
firms to gain access to a greater variety of opportunities and to increase the firm’s potential value
(Sirmon, Hitt, & Ireland, 2007).
Considering the characteristics of environment, R&D resources are more deterministic
than financial resource regarding organizational boundary decision. That is, young firms with
substantial R&D resources rely more on the internal factor market to develop competence and
capability in competitive and dynamic environments. This could be due to the increased
management costs associated with uncertainty (Dundas & Richardson, 1980). In situations of
uncertainty and rapid technological change, where divisions are connected by investment in
specific technological assets, the advantages of being closely linked evaporate (Hill & Hoskisson,
1987). Strong competition also pressures young firms with R&D resources to focus on
developing new competencies and absorptive capacity in-house rather than shouldering the
complexities associated with acquisition.
However, the boundary expansion decisions of young firms with sufficient financial
resources are not affected by environmental contingencies. This can be interpreted to mean that
financial resources as slack have stronger effect on boundary decisions regardless of the market
context. Financial resources provide a cushion that gives firms discretion (Bourgeois, 1981),
allowing them to adapt to internal and external pressures, and to change strategies. Given that
slack resources could be diverted or redeployed to achieve organizational goals (George, 2005),
it seems logical then that the existence of these liquid financial resources—which indicate that
the firm has resources in excess of what is required to meet current obligations and support sales
levels (Mishina et al. 2004)—would permit IPO firms to engage in boundary expansion activities
without worrying much about the specific context. Although external markets have greater risks
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in uncertain markets, managers consider acquisitions and joint ventures to be superior means of
accessing to capabilities and exploiting market opportunities.
Theoretical and Practical Implications
This study has several important implications for boundary expansion research, IPO firms,
and practitioners. Firm boundary research has typically examined decisions such as performing
internal R&D, or using a technological alliance (Pisano, 1990; Robertson & Gatignon, 1998),
making or buying car parts (Monteverde & Teece, 1982), pursuing a joint venture or a wholly
owned subsidiary (Hennart, 1991). Similarly, this paper focuses on the decision of whether to
continue investing in R&D or gain access to capabilities through the market. More specifically,
we focus on high technology IPO firms. This article contributes to the literature by moving
away from the traditional focus on well-established firms. The motivations and behaviors of
managers are different in pre and post-IPO firms where market scrutiny and the need to deliver
results every fiscal quarter are increased (George, 2005). This paper provides support for the
capability perspective in the boundary literature. IPO context differs from the general context
where incumbents are experiencing. Net proceeds from going public give IPO firms a
substantial advantage in capability development. Our findings suggest that, in the IPO context,
the most important factors influencing boundary choice are the firms resources specifically R&D
and financial. It implies that the nature and potential value of different types of resources
(Walter & Barney, 1990) should be understood differently over the life cycle.
From a managerial perspective, resources should be taken into account when making
boundary expansion decisions. Evaluating strategic options based on transaction costs may not
be sufficient to create value for the firm. Although transaction costs in the external market are
low and attractive, seeking capabilities beyond the organizational boundary, will likely fail
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without a solid analysis of the available internal resources and firm’s capability needs. Thus,
managers should first understand their resource portfolio and then decide whether exploitation is
beneficial and increases their long-term competitive advantage.
Limitations and Future Research
Despite the care taken in data gathering and statistical analysis, this study has some
limitations. First, although this study included a fairly broad range of firms from different
industries, the unique characteristics of high-tech firms may have influenced the results. A focus
on less technology-intensive IPO firms, or firms in more stable industries might reveal additional
insights into the search and renewal strategies of IPO firms. Second, the exclusive focus on R&D
and financial resources limits the study. Other resource dimensions, such as physical or
commercial, might significantly influence a firm’s boundary choice. Third, boundary expansion
can be narrowed down in terms of industry and national boundary, and future research may
examine how different types of resources influence these dimensions of boundary expansion.
Fourth, organizational boundary can be explained through a number of different perspectives—
power, competency, efficiency, and identity (Santos & Eisenhardt, 2005). In this paper, we
discuss boundary primarily from the competency perspective using resource-and capability-
views because they arguably explain boundary expansion more completely than others (such as
efficiency or power) (Jacobides & Hitt, 2005). Future research may compare and contrast all four
perspectives with comprehensible sample. Finally, this paper does not consider the implications
of boundary choice on performance. Although, not part of the study, we found that high R&D
intensity in early stage firms is positively related to market-based performance (measured by
Tobin’s q). Future research may investigate the best time for IPO firms to engage in boundary
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expansion. Additionally, researchers may examine conditions affecting how timing and the
choice of mode influences the market performance of a young firm.
In conclusion, this study investigates the various search and renewal strategies of young
firms. Based on the resources- and -capability perspectives, this study found that R&D resources
increase the boundary expansion activities in early stage firms, contingent on environmental
uncertainty and competitive intensity. Financial resources also influence the extent to which
firms engage in boundary expansion activities. These findings help to explain the implications
of resources on exploitation and exploration decisions, and contribute to the boundary expansion
and capability development literature, particularly in the IPO context.
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CHAPTER FOUR
PAPER THREE
INITIAL PUBLIC OFFERING AND THE STRATEGIC BEHAVIOR OF FIRM:
DIFFERENTIATION AND PERFORMANCE
ABSTRACT
This study examines the role of new ventures’ differentiation strategy on their short- and long-
term performance after the IPO—particularly, at the time of IPO (initial public offering) and
during post-IPO stages. New ventures in the high technology industry strategically differentiate
themselves by exploring novel technologies rather than continuing to exploit existing
technologies or mimicking other firms’ technologies. We argue that the new ventures’ use of
novel technologies developed upon their unique resources and capabilities provide an initial
setting for competitive advantage both in the short- and long run. We find that new ventures that
use differentiation as their innovation strategy would yield superior performance as compared to
the ventures that mimic existing technologies. Further, we find that the presence of
environmental uncertainty enhances the performance of those new ventures that have developed
novel technologies drawing upon their unique resources and capabilities.
Keywords:
New venture, differentiation, performance, IPO
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INTRODUCTION
Scholars in strategic management and organization theory have argued that firms
particularly a new venture, is in direct competition with its competitors in the industry and also
faces indirect competition with other actors in the external environment (Baum & Haveman,
1997; Deephouse, 1999; Lieberman & Asaba, 2006). New ventures’ technology strategy
regarding differentiation or mimicry plays an important role in their future performance
(Chatterji, 2009; Phillips, 2002; Ruef, Aldrich, & Carter, 2003; Vesper, 1990). On one hand, a
new venture’s performance is related to its ability to differentiate itself from its competitors. By
differentiating their resources and market position from those of incumbents, new ventures are
able to reduce the likelihood of imitation and place themselves in a more competition position
(Lieberman & Asaba, 2006). Additionally, differentiation of resources from competitors reduces
competition for them in the market (Barney, 1991; Porter, 1991), leading to higher performance.
On the other hand, new ventures may rely on conformity to the industry norm. Entrepreneurial
ventures may mimic incumbents’ behavior in the industry because they face of high levels of
uncertainty regarding technology strategy (Meyer & Rowan, 1977; Pfeffer & Salancik, 2003).
Strategic similarity allows the new venture to be recognized as following legitimacy, reducing
risks inherent in exploration (DiMaggio & Powell, 1983). However, it is still less understood
which approach is more beneficial in an initial public offering (IPO) context.
IPO is a process through which a new venture goes public. IPO provides new ventures an
opportunity to obtain financial capital from investors, increase recognition and visibility of the
new ventures by exposing to investors, and often obtain higher values as the acquisition targets
(Brau & Fawcett, 2006; Certo, Holcomb, & Holmes Jr, 2009; Nelson, 2003; Pagano, Panetta, &
Zingales, 1998). In addition, going public allows new ventures not only to increase their
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legitimacy in the business community but also to gain improved access to debt financing (Cohen
& Dean, 2005; Deeds, Mang, & Frandsen, 2004; Higgins & Gulati, 2005; Pollock & Rindova,
2003; Sutton & Benedetto, 1988). IPO also involves disadvantages, such as a loss of ownership,
increased financial and operational scrutiny of the business, vulnerability to the external
environment, and high cost of going public (Certo et al., 2009). For a new venture, delivering
correct signal to the market is important (Daily, Certo, Dalton, & Roengpitya, 2003) and as such
mangers of recently IPO firms should find a mechanism to manage the quality of their new
venture for reducing uncertainty and attracting more investors. Signals, such as the
characteristics of top management team, help in gaining legitimacy in the market (e.g., Deeds et
al., 2004; Gulati & Higgins, 2002; Higgins & Gulati, 2003; Pollock & Rindova, 2003). However,
literature is yet to focus its attention on how a new venture’s technology strategy influences its
performance both in the short and long term.
This study builds on signaling theory (Spence, 1973, 1974b) and explores which strategic
action, technological mimicry or differentiation, delivers superior performance in the IPO and
post-IPO context. We consider mimicry and differentiation as a continuum of strategic actions
and choices. We consider differentiation as one end of the continuum whereas mimicry is other
end. In the context of technology strategy, we define differentiation as those technology choices
that help distinguish a new venture from others whereas strategic similarity refers to strategic
actions that lead to technological mimicry and help resemble other firms in the industry. A new
venture’s choice on this continuum delivers appropriate signal to the potential investors in the
market. We propose that a new venture’s strategic choice before IPO plays a critical role in its
short- and long-term performance after the IPO because investment decisions of shareholders at
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the time of IPO and subsequent investments depend on the new venture’s potential to create high
return on investment.
This paper is structured as follows: First, we discuss the role of information asymmetry
and signaling theory on IPO- and subsequent performance. Second, we explain strategic actions
and technological choice from signaling perspective. Third, we develop hypotheses explicating
the role of such actions and choices on new venture’s short- and long-term performance. Fourth,
we test the proposed hypotheses and finally, we discuss the findings and implications.
THEORY AND HYPOTHESES
Information Asymmetry and Signaling Theory
IPO is characterized by information asymmetry because the current owners (i.e., internal
managers) have access to more information about the internal operations while potential
investors in the market have access to relatively less information (Downes & Heinkel, 1982).
Information asymmetry is created because IPO takes place when potential investors have
relatively less knowledge than the security owners and such asymmetry open up the potential for
opportunistic behavior by owners(Carter & Manaster, 1990; Stuart, Hoang, & Hybels, 1999).
The available information in the market plays the role of a signal from owners to the
potential investors. Signaling theory (Spence, 1973, 1974b) suggests that certain indicators about
quality of IPO new venture provide signals to potential investors, increasing the future value of
the new venture (Deeds, DeCarolis, & Coombs, 2000). Signaling activities are useful, especially
when high information asymmetry exists (Spence, 1973). When there is significant difference in
the amount of information between owners and investors, the signal reduces the information
asymmetry because signal is both observable and costly to imitate (Certo, Daily, & Dalton, 2001;
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Spence, 1973). Because IPO new ventures must release their internal information in the market
through prospectus, signaling mechanisms play a major role in the IPO process Since the
potential investors make a decision based on the signal, the IPO new ventures may delay IPO
until they can provide more positive signal (e.g. demonstrating high performance) to the
potential investors (Jenkinson & Ljungqvist, 2001).
To be effective, market signal should meet the conditions that it is observable, difficult to
change, costly to produce and imitate, and persistent (Riley, 1975; Spence, 1974a). Although
market signal is difficult to imitate, IPO new ventures are more likely to imitate the strategies
practiced in past so as to gain legitimacy and enhance the value. Next, we discuss types of
strategic actions a new venture may adopt.
Performance Implications of Strategic Similarity vs. Differentiation
Scholars have discussed strategic actions in two perspectives, and each perspective
provides different conclusions. First, institutional theory (DiMaggio & Powell, 1983; Powell &
DiMaggio, 1991) supports the strategic similarity perspective. Incumbents or society generates
prevailing norms in the institutional environment. Additionally, a collective, particular pattern
exerts pressures on organizations to adopt legitimate structural element (Burns & Wholey, 1993).
From IPO perspective, legitimacy represents the perception that new venture would act on the
behalf of shareholder wealth generation (Cohen & Dean, 2005), and that new ventures would
meet implicitly necessary requirements in their industry. When one or more organizations use a
particular practice, inter-organizational imitation can increase the likelihood of that practice
being adopted by other organizations (Haunschild & Miner, 1997). This mimicry behavior, such
as imitating entry strategy of industry peers, is rooted in institutional theory (DiMaggio & Powell,
1983; Meyer & Rowan, 1977; Powell & DiMaggio, 1991; Scott, 2008).
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Institutional theory is a theory that explains why there is a high homogeneity of
organizational structures and practices among actors in an industry (Donaldson, 1995). The core
idea is that organizations are more likely to survive if they obtain legitimacy and approval from
actors in the surrounding institutional environment (Zucker, 1988). According to the institutional
theory, individual organizations adapt to their institutional environment via isomorphic
mechanisms. Meyer, Scott, Strang, and Creighton (1988) offered evidence of increase
institutional isomorphism by showing that increasing similarity across the different states of the
USA indicating the increased homogenization of the nation.
Scholars use a concept of mimicry to explain the strategic similarity. Mimicry, which
refers to a strategic action to respond to uncertainty through imitating other actors’ actions
(DiMaggio & Powell, 1983), is one of isomorphic mechanisms to explain the homogeneity
among organizations, and occurs when organizations imitate successful role models in order to
avoid deviation or to be perceived as rational actions (Greenwood & Meyer, 2008).
Organizations model themselves after other organizations that they perceive to be more
legitimate or successful. Thus, strategic similarity is an outcome of a standard response to
uncertainty, where new ventures adopt solutions used by others to deal with problems (DiMaggio
& Powell, 1983). Heugens and Lander (2007) found support for the effect of mimetic pressures
on organizational isomorphism. Adoption of a legitimated structure or strategic actions helps the
new venture secure funding and eases its transactions with other organizations. Overall, strategic
similarity through mimicry allows the new ventures to achieve legitimacy by adapting to
institutional environment in the industry (Van de Ven & Hargrave, 2004) and survive longer than
others which do not achieve legitimacy (Lee & Pennings, 2002). Therefore, scholars in the
institutional theory suggest that legitimacy is more important than uniqueness.
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On the other hand, resource-based view (RBV) (Barney, 1991; Penrose, 1959) supports
for strategic differentiation perspective for superior performance. RBV argues that resources are
“stocks of available factors that are owned or controlled by the firm” (Amit & Schoemaker,
1993). RBV further proposes that valuable, rare, inimitable and non-substitutable (VRIN)
resources are the genesis of competitive advantage through value creation (Barney 1991;
Mahoney and Pandian 1992; Penrose 1959; Wernerfelt 1984). Because resources consist of a
bundle of potential services that can be used for rent generation (Penrose, 1959), idiosyncratic
differences among firm-resources (e.g., technologies, knowledge base, managerial experience
and vision) and their use leads to variance in performance with some firms gaining competitive
advantage over others (Barney, 1991; Barney, 2001; Wernerfelt, 1984). In the context of new
ventures, RBV suggests that new ventures with differentiated resources have more avenues for
engaging in local and distant search and recombine such resources for developing superior
capabilities. The unique combination of technologies across organizational boundary and
technological boundary leads to higher innovation and increase the new venture’s performance
(Miller, 2006; Rosenkopf & Nerkar, 2001). Summarizing, new ventures that use differentiation
strategy developing resources and capabilities that are valuable, rare, inimitable, and non-
substitutable gain competitive advantage (Alvarez & Barney, 2004; Alvarez & Busenitz, 2001).
A new venture’s choice for differentiation also reduces resource competition in the factor
market. Moreover, such new ventures have the opportunity to create a new market or position
their differentiated products and services in a niche market (Porter, 1998; Rumelt, Schendel, &
Teece, 1994). Niche markets offer less competition as compared to generic markets. In essence,
the strategy to focus on novel technologies positions such new ventures for competitive
advantage in the industry irrespective of competition or industry characteristics (Afuah, 2001).
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The use of differentiation strategy also provides an effective signal to the potential investors
because of the inherent nature of valuable, rare, inimitable and non-substitutable resources.
We weighed the potential importance of strategic similarity and differentiation in the
context of new venture. We believe that though strategic similarity enables a new venture to
conform to the industry norms and achieve legitimacy, mimicry also has substantial
disadvantages such as high levels of competition with incumbents and other competitors, lack of
novel technology, limited scope of exploitation and lack of powerful signal to the market. On the
other hand, differentiation strategy develops a niche with the use of VRIN resources and
capabilities, lowers the levels of competition in the factor and target markets, thrives on the
benefits of exploration and pioneering novel technologies, and generates excitement in the
market sending powerful signal to the potential investors (Afuah, 2001; Deephouse, 1999;
Gimeno, Hoskisson, Beal, & Wan, 2005; Katila & Ahuja, 2002). Overall, although the effects of
differentiation strategy on performance could be debatable, our hypothesis is that the use of
differentiation strategy by new ventures should deliver above advantages to the new venture,
leading to superior performance at the time of IPO.
Hypothesis 1. New ventures’ use of differentiation strategy is more positively
associated with the new venture performance at the time of IPO rather than their
use of similarity strategy.
In the high technology industry, development of technological resources and capabilities
can provide value far in excess of the initial investments in the long run. Valuation of high
technology initiatives must be oriented towards the future revenue generation potential and
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associated risks (Nolan, 1994, p. 4). A new venture’s technological capital must be assessed by
considering its association with both the level and the risk of current and future profitability. This
is because of the following reasons: 1) The true potential of novel technology is often unknown
as it unfolds over time, 2) The antecedents of technological resources and capabilities consist of
intangibles such as knowledge base and learning curve.
Further, intangible organizational resources for the development of novel technologies
include not just the presence of specific ‘technology asset (e.g., prior patent)’ but also the
knowledge and capabilities of the skilled employees continually integrate and recombine
resources for developing new technological capabilities to match or surpass market needs
(Eisenhardt & Martin, 2000; Matusik & Hill, 1998; Prahalad & Hamel, 1990). We believe that
such knowledge-based capabilities get embedded in the venture and are valuable, rare, inimitable
and non-substitutable. Moreover, we argue that such new ventures would have developed a
‘pioneering’ culture that focuses on continual exploration of new technologies with appropriate
culture along with organization structure, controls, communications, and rewards systems. In
summary, new ventures that differentiate themselves on the basis of novel knowledge and
technologies develop VRIN resources and capabilities that are generally realized over time. Such
resources and capabilities become venture-specific and are complex to acquire by competitors or
incumbents leading to competitive advantage. As the differentiation strategy may take years to
add value to a firm and its impact shows more in the long term, we propose that the use of
differentiation strategy would allows the new venture to have superior performance after IPO.
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Hypothesis 2. New ventures’ use of differentiation strategy is more positively
associated with the new venture’s market performance rather than their use of
similarity strategy.
However, stock prices may be a less reliable indicator of fundamental values for new
ventures that are smaller and less known. Extant literature suggests that shareholder returns, from
owning a portfolio of IPOs for up to five years after the companies go public, perform well
below other benchmark returns (Aggarwal & Rivoli, 1990; Loughran, Ritter, & Rydqvist, 1994;
Ritter, 1991). It has been suggested by Grinblatt and Titman (2002) that the poor performance of
firms, having recently gone public, is related to IPO markets which are not informationally
efficient. Often, inefficient IPO markets provide corporate managers the opportunity to
successfully time the market (Loughran & Ritter, 1995). This suggests that corporate managers
issue stock when it is overpriced.
Bhide (2000) argues that the really significant risk for a venture occurs not at the start-up
stage but at the point when major irreversible investment in growth is required. At this stage, an
entrepreneur puts all of his or her financial resources into “one basket.” According to Bhide,
“growth involves developing formal structures and systems that increase the firm’s fixed costs
and hence the risk of bankruptcy” (2000: 293). Whether entrepreneurs escalate their commitment
at this stage—in the face of increasing bankruptcy risk— often determines whether their firms
will eventually succeed or not. Thus, in addition to the performance, we also consider the
possibility of bankruptcy as another result of differentiation strategy of new venture. First,
differentiation strategy requires developing relatively new technologies and products. The
superior capability and resource support for radical and incremental innovation. The new
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ventures with differentiating their resources and capabilities from others are able to or have at
least more novel technological resources than others simply using mimicry. Therefore, new
venture with novel technologies are more likely to survive than are non-innovative firms (Cefis
& Marsili, 2006). It is believed that innovative firms grow faster, are more profitable, and are
survivors in shake-outs (Geroski, 1995). This is because firms with technological resources have
better odds of facing the shake-out phase of lifecycle based on the niche target market for their
innovation. These firms survive on the basis of superior technical capability developed through
process of innovation and their attempts to drive down cost (Knott & Posen, 2005; Nelson &
Winter, 1982). Second, development of novel technologies protects new ventures from ‘liability
of newness’ as they are better at: (a) exploiting their superior resources and capabilities, (b)
learning and adapting to market needs; (b) development of novel technologies based on
resources and capabilities; (c) establishment of innovation culture; and (d) some connection with
potential customers and suppliers who demand novel technologies (Klepper, 1996; Levinthal,
1991; Nelson & Winter, 1982).
Lastly, new venture with superior technological capital derived from differentiation
strategy also ward off competition by not competing with generic firms and incumbents for
common resources, thereby reducing their mortality rate (Carroll & Hannan, 1989; Hannan &
Freeman, 1989). Extant literature suggests that new ventures go bankrupt if they fail the tests of
selection and competition. New ventures with novel technologies have better odds of selection in
the presence of population density. Such firms survive in the long-term, even when there is the
threat of excess entry (Knott & Posen, 2005) as well as strong competition in the industry
(Aghion, Harris, Howitt, & Vickers, 2001).
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Hypothesis 3. New ventures’ use of differentiation strategy is more positively
associated with the new venture’s survival by avoiding bankruptcy rather than
their use of similarity strategy.
Role of Environmental Uncertainty
In general, uncertainty is the inability to predict or foresee (Anderson & Tushman, 2001).
Uncertainty arises when decision makers such as investors cannot reliably forecast future events
based on the available information. Environmental uncertainty disrupts underlying equilibrium
and renders existing resources obsolete (Leonard-Barton, 1992; Schumpeter, 1942). In the face
of uncertainty, new ventures that develop novel technologies and create new markets have
greater odds of success because these characteristics provide relative stability in terms of future
market demand, potential of success with emerging technological trajectories and likely
dominant design (Anderson & Tushman, 1990; Benner & Tushman, 2003). They continue
exploring emerging technologies and following growth patterns with better odds for providing
value proposition even in the face of difficult to predict conditions—they can maintain
technological and competitive edge or at least sustain themselves as the uncertainty resolves over
time (Anderson & Tushman, 1990; Henderson & Clark, 1990). Technological edge and novel
technologies hedge against such uncertainty by providing a window on multiple emerging
competencies and potential for market demand for emerging technologies (Folta & Miller, 2002;
Steensma & Corley, 2001). Technological resources and capabilities provide opportunities for
continual learning throughout the uncertain period that could facilitate in pioneering new
technologies during the period itself or just later (Chesbrough, 2002; Dushnitsky & Lenox, 2006).
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Additionally, extant literature suggests that for such new ventures, rate of obsolescence
for innovative new ventures is also relatively lower despite uncertainty because such firms have
developed routines and capabilities that could renew their capabilities and develop new products
(Leonard-Barton, 1992; Tushman & O'Reilly, 2002). Differentiated resources provide a source
of competitive advantage especially under uncertain environment. In the presence of uncertainty,
investors are more likely to invest in the new ventures with novel technologies (Galunic &
Eisenhardt, 2001; Gilbert, 2005) that could sustain because such ventures’ signals are relatively
safe and sound as compared to those from average firms.
Even if the uncertainty remains for a longer period of time, odds are high that the
valuation of such ventures will be higher. They are better able to retain their market base despite
uncertainty because the market put more values in their innovations and a new venture’s
technological capital provides effective signals for future profitability. Such ventures also have
superior knowledge base, absorptive capacity and capabilities of the skilled employees that could
help in further development of new technologies. A culture of continual exploration of new
technologies with appropriate culture along with organization structure, controls,
communications, and rewards systems further helps them alleviate the effects of uncertainty in
the long run. They remain better positioned as compared to their competitors in the market with
market recognizing their potential and delivering higher valuation.
Such ventures will also be able to avoid bankruptcy in the face of uncertainty because
they have better odds of facing the shake-out phase of lifecycle due to the presence of niche
target market for their innovation. Even in the face of uncertainty, these firms survive on the
basis of superior technical capability developed through process of innovation and their attempts
to drive down cost. Such firms also save themselves from ‘liability of newness’ by exploiting
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their superior resources and capabilities, learning and continual development of novel
technologies based on resources and capabilities.
Overall, we propose that environmental uncertainty strengthen the relationship between
technological differentiation and performance of new ventures after IPO. That is, in the presence
of uncertainty, new ventures following differentiation strategy would deliver higher performance
both in the short-term and in the long-term.
Hypothesis 4. There is a stronger, positive relationship between the use of
differentiation strategy and the new venture performance at the time of IPO when
uncertainty is high.
Hypothesis 5. There is a stronger, positive relationship between the use of
differentiation strategy and new venture’s market performance as measured by
Tobin’s q when uncertainty is high.
Hypothesis 6. There is a stronger, positive relationship between the use of
differentiation strategy and new venture’s survival by avoiding bankruptcy when
uncertainty is high.
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METHOD
Data
The initial sample consists of all U.S. IPO firms between 2001 and 2005 in the U.S. high
technology industry, which is defined as those in 2digit SIC of 28 (chemicals and allied
products), 35 (industrial machinery and computer equipment), 36(electronics and other electric
equipment), 38 (instruments and related products), 48 (communications), and 73 (Business
services-software) (Bradley, Jordan, Yi, & Roten, 2001; Carpenter & Petersen, 2002; Loughran
& Ritter, 2004). The primacy data sources include Securities Data Company (SDC) Platinum,
COMPUSTAT, the National Bureau of Economic Research (NBER) Patent Citation data file and
Securities and Exchange Commission (SDC) filing (424b). The time window of 2001-2005 was
selected to avoid the effect of internet bubble and to match the initial sample with patent data
which is available in the 1975-2006. Firms are excluded from sample if financial data is not
available in the database and if firms are not listed in SDC platinum, COMPUSTAT, and patent
data. After matching process, the final sample was 114 IPO firms in 35 four digit SIC industries.
The new NBER patent data project updated information about patent, technological class,
application year, citation, and assignee in the period 1975 -2006. Though many scholars have
used patent data as a proxy measure for innovation and strategic behavior in the
internorganizational relationships (see Argyres & Silverman, 2004; Miller, Fern, & Cardinal,
2007; Rosenkopf & Nerkar, 2001), patent data is not without limitations in that not all
technological innovation is patented (Hall, Jaffe, & Trajtenberg, 2001). Patent activities vary
from industry to industry, and patents are a way to protect intellectual property rights rather than
measuring the innovation output directly (Rodriguez-Duarte, Sandulli, Minguela-Rata, & Lopez-
Sanchez, 2007). However, these concerns are mitigated by the benefits of using patent data.
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NBER patent data allows scholars to measure a firm’s technological capital, flow of knowledge,
and interfirm relationships for knowledge building. Additionally, since this paper focuses on the
level of strategic differentiation, patent data would be an appropriate source to measure the
degree of which firms imitate other’s technologies in the same category or different categories.
Measures
Dependent variables. The short-term and long-term performance was measured by three
different variables. First, we measured the short-short term IPO performance using IPO
underpricing, which was calculated by the difference between the offer price and the stock price
at the first date of transaction divided by the offer price. This measure was used by many
scholars in the IPO literature (e.g. Arthurs, Busenitz, Hoskisson, & Johnson, 2009; Nelson, 2003;
Pollock & Rindova, 2003).
Second, the market-based performance of IPO firms was measured by Tobin’s Q, which
refers to the ration of the firm’s market value to the replacement cost of its assets (Chung &
Pruitt, 1994). Tobin’s Q is employed as IPO firms’ performance from long-term perspective. It is
expected that the lower value of Tobin’s Q indicates low value (or performance) because the
firm is poorly managing its resources, while higher value indicates high value of the firm
because the firm is effectively using resources, creating value. Use of this measure allows us to
measure a new venture’s future performance potential while avoiding some of the problems
associated with the accounting measures. We use this measure to capture the new venture’s
technologies’ intangible value because the use of Tobin’s Q for measuring intangible value is
based on the assumption that the long-run equilibrium market value of a firm must be equal to
the replacement value of its assets, giving a Tobin’s Q value close to unity. Deviations from this
relationship (where q is significantly greater than "1") are interpreted as signifying an
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unmeasured source of value, and generally attributed to the intangible value enjoyed by the firm.
In using this measure, we follow similar studies (e.g., Bharadwaj, Bharadwaj, & Konsynski,
1999) that explored the relationship between intangible value created by constructs such as brand
equity, R&D, and advertising and Tobin’s q.
Third, we use the level of bankruptcy to test the long-term effect of mimicry behavior on
the IPO firms. Distance from bankruptcy is measured by Altman Z score (Chen & Miller, 2007).
A firm that is experiencing significant operational and financial trouble and is on the verge of
bankruptcy is said to be in financial distress (Chen & Miller, 2007). Altman’s (1968, 1993) Z-
score is used to measure the degree of which a firm is from bankruptcy. A high Altman’s Z
represents that firms are at risk of bankruptcy, vice versa. We measure Altman’s Zs using firms’
accounting information regarding their working capital, retained earnings, earnings before
interest and taxes, market value of equity, and sales in the end of year of IPO event. The equation
is (1.2 X working capital divided by total assets) + (1.4 X retained earnings divided by total
assets) + (3.3 X income before interest expense and taxes divided by total assets) + (0.6 X
market value of equity divided by total liability) + (1.0 X sales divided by total assets). It is
expected that the higher value of Altman Z score, the lower change of bankruptcy.
Independent variable. Most research on interorganizational imitation has tended to adopt
indirect measures of the existence of mimetic behavior, such as the use of the percentage of
adoptions of some organizational change or innovation, branching behavior (Barreto & Baden-
Fuller, 2006), or the relationship between adoption and density of previous adoptions
(Haunschild, 1993). To be consistent with this approach and apply it to IPO context, this study
measured the level of strategic differentiation regarding technology using patent citations before
IPO. Firms may cite either patents developed by competitors in the same technological class, or
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those developed by firms in the different technological classes. Strategic differentiation was
calculated by inversed value of the number of cited patents in the same technological class
divided by the total number of cited patents before going public. It represents firm’s strategic
behavior regarding the extent to which the firm focuses on technologies outside of its core
industry. Using patenting measures as proxies for similarity or differentiation is appropriate
because firm’s capability of innovation is one of the critical competences in the high
technological industry (Matraves, 1999; Rothaermel & Boeker, 2008). Patents as innovation
output are more appropriate than R&D expenses which should be treated as input for innovation
(Ahuja, Lampert, & Tandon, 2008). The higher value indicates higher level of strategic
differentiation and more novel technologies.
Moderator. Environmental uncertainty can be broken into three dimensions (e.g.
complexity, munificent, and dynamism) (Dess & Beard, 1984). To capture the uncertain and
volatile characteristics of environment, we used environmental dynamism dimension and
measured it as the natural logarithms of sales figures in the 4-digit industry during five years
before IPO year were entered into quasi-time series regressions with time serving as the
independent variable. The antilog of the standard errors of the resulting regression slope
coefficients resulting regression slope coefficients were then used to capture volatility of
environment (Dess & Beard, 1984; Keats & Hitt, 1988).
Control Variables. We include several control variables to avoid alternative explanation.
First, NASDAQ index on the day before IPO was used to control for the market effect. In a good
market climate, firm may enjoy higher value since investors are more willing to pay for higher
premium (Ritter, 1991). Second, the log-transformed values of years since founding and the
number of employees at the time of IPO were used to measure firm age and firm size,
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respectively. Strategic actions of larger and older organizations are easily observed and paid
attention to by potential investors. Third, since the characteristics of mimicry patterns vary
industry by industry, we control for the industry effect by including dummy variables. The
primary 2-digit SIC code was categorized into one of three major industry groups according to
Dun & Bradstreet classification (e.g. 20-39: manufacturing, 40-49: transportation,
communications, electric, gas and sanitary services, and 70-89: service and software) and
included in the analysis. In results, industry variables were coded into 2 SIC dummy variables.
Forth, the venture capital backing was dummy coded as controls: 1 if IPO firm uses venture
capital; 0 if the firm does not use venture capital (Hsu, 2006). Literature in IPO research suggests
that monitoring and certification by venture capitalist may increase IPO performance (Brav,
Geczy, & Gompers, 2000). Fifth, the effect of non-compete clause in the state of headquarter
was controlled. Each state in the U.S. has different agreement about non-compete clause. When a
firm writes an employment contract with non-compete clause that prohibits an employee from
direct competition with its employer after leaving the firm, the citation activities and knowledge
sharing are less likely to occur (Liebeskind, 1996). The effect of non-compete clause was
dummy-coded 1 if the headquarter of IPO firm is located in the state without non-compete clause
and 0 if the headquarter is located in the state that support non-compete clause. Sixth, we
controlled the underwriter reputation by using scores developed by Carter and colleagues (1990;
1998). The underwriter reputation has 0-9 scale (Loughran & Ritter, 2004). Seventh, our model
included lockup provision as control. The lockup dummy was coded 1 where there is an
agreement between managers of the issue and exiting shareholders not to sell their holding for a
prescribed period after the date of IPO and 0 where there is no agreement on lockup provision.
Eighth, we also controlled the amount of net proceeds. Offer size was measured as the natural
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logarithm of total proceeds raised at IPO (Cohen & Dean, 2005). Ninth, to distinguish the pure
offer from other purpose, the empirical model controlled for the spin-off firms which was
measured as dummy variable. Lastly, we also included year dummies to control for potential
influences associated with yearly trends regarding IPO performance.
Analysis
Since we tested the effect of strategic differentiation on three different measures of
performance, Multivariate Regression Analysis was used to test our hypotheses. Differentiation
was measured on the basis of citation behavior before IPO, while the performance measures
were calculated at the end of IPO year. This lagged measurement allows testing the performance
consequence resulted from the strategic differentiation before IPO.
Three models with each dependent variable were specified in the analysis. The first
model includes the control variables with the short-term performance measure and the long-term
performance measures as DV. The second model includes the controls as well as the variables
used to test the main effect of strategic differentiation on the performance. The third model adds
the interaction terms between environmental uncertainty and differentiation strategy in order to
examine the moderating effect of environmental uncertainty on the relationship between strategic
differentiation and performance. To reduce multicollinearity, all continuous variables in the
model were centered using the mean value of each variable.
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TABLE 4.1 Descriptive Statistics and Correlation Matrix
Mean S.D. 1 2 3 4 5 6 7 8 9 10 11 12 13 1. Underpricing 0.1 0.2
1 2. Tobin’s Q 3.6 2.3
0.18 1
3. Altman Z 14.4 18.0
0.19 0.59 1 4. Differentiation 2.8 2.3
0.06 0.27 0.46 1
5. NASDAQ index 1990.9 214.7
0.13 -0.15 0.03 -0.08 1 6. Firm age 2.2 0.6
-0.07 0.09 -0.07 -0.02 -0.10 1
7. Firm size 5.4 1.5
0.15 0.13 -0.21 -0.22 -0.15 0.48 1 8. Reputation 7.5 2.9
0.03 0.00 -0.10 -0.38 0.04 0.01 0.24 1
9. Net proceeds 138.5 260.4
0.03 0.42 0.18 -0.08 -0.12 0.26 0.61 0.09 1 10.Non-compete 0.6 0.5
0.10 0.10 0.21 0.18 -0.06 -0.21 -0.07 0.06 -0.08 1
11.Lockup 0.9 0.3
-0.01 0.08 0.07 0.01 -0.17 -0.05 -0.20 -0.04 -0.19 0.03 1 12.Venture-back 0.7 0.5
0.06 -0.04 0.13 -0.03 0.06 -0.34 -0.43 0.05 -0.32 0.09 0.11 1
13. Uncertainty 1.1 0.2 -0.13 0.09 0.09 -0.02 -0.02 0.01 -0.01 0.06 0.08 -0.08 -0.11 -0.11 1
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TABLE 4.2 Results of Multivariate Regression Analysis Estimating Short-Term and Long Term Performance
of New Ventures
Underpricing Tobin’s Q Altman’s Z
Model1 Model2 Model3 Model1 Model2 Model3 Model1 Model2 Model3
Stock index 0.17
0.20 † 0.21 † -0.17
-0.13
-0.13
0.17
0.23 † 0.24 † Venture-back 0.01 *** -0.04 *** -0.01 *** 0.02 *** 0.03 *** 0.03 *** -0.04 *** -0.05 *** -0.04 *** Sic1 0.06
0.04
0.03
-0.36 * -0.37 * -0.37 * 0.10
0.13
0.12
Sic2 -0.02
-0.02
-0.02
-0.21
-0.23
-0.23
0.12
0.13
0.13 Year01 0.31 ** 0.37 *** 0.32 ** 0.11
0.03
0.03
0.16
0.08
0.07
Year02 0.05
0.12
0.11
-0.22 * -0.22 * -0.22 * 0.07
0.08
0.08 Year03 0.21 * 0.22 * 0.19 † 0.03
-0.02
-0.02
0.29
0.21 * 0.20 *
Year04 0.17
0.20
0.15
-0.01
0.03
0.03
0.18
0.21 * 0.20 † Spin flag -0.21 * -0.19 † -0.18 † -0.14
-0.17
-0.17
-0.16 † -0.09
-0.08
Non-compete 0.10
0.07
0.08
0.11
0.07
0.07
0.20 * 0.12
0.12 Lockup 0.15
0.13
0.10
0.14
0.07
0.07
0.13
0.15 * 0.14 †
Firm age -0.10
-0.08
-0.07
0.19
0.14
0.14
0.14
0.02
0.03 Firm size 0.31 * 0.29 † 0.31 † -0.22
-0.06
-0.06
-0.46 *** -0.33 ** -0.33 **
Reputation -0.11
-0.10
-0.10
0.02
-0.01
-0.01
-0.07
-0.08
-0.08 Net proceeds 0.03
0.05
0.05
0.53 * 0.50 * 0.50 * 0.52 *** 0.49 *** 0.49 ***
Dynamism
-0.16 * -0.11 †
0.09
0.09
0.05
0.06 Differentiation
0.18 ** 0.23 ***
0.25 ** 0.26 *
0.44 *** 0.44 ***
Differentiation X Dynamism
0.18 *** 0.01 0.04
N 114
112
112
102
100
100
102
100
100 F statistics 2.50 ** 3.63 *** 4.65 *** 2.60 ** 2.81 *** 2.62 ** 2.29 ** 3.25 *** 2.96 ***
R2 0.19
0.24
0.26
0.35
0.43
0.43
0.31
0.47
0.47 ∆R2 0.05 * 0.02 † 0.08 *** 0.00 0.15 *** 0.00
† p < .10 * p < .05 ** p < .01 *** p < .001
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RESULTS
Table 1 provides the descriptive statistics among all variables. There was not a strong
correlation between a pair of variables. To further diagnose the presence of multicollinearity, we
checked the value of variance inflation factors and found all independent variables below the
commonly accepted threshold of 10. This suggests that there is no harmful collinearity.
Hypothesis 1 proposed that there is positive association between differentiation strategy
and IPO performance, and hypotheses 2 and 3 also suggest the positive relationship with the
long-term performance and survival. The coefficient for differentiation in model 2 of each DV in
Table 2 was positive and strongly significant (p<0.01). As expected, hypotheses 1, 2, and 3 were
supported. That is, the differentiation strategy before IPO increases the firm’s IPO performance,
market-based performance and the possibility of survival in the later stage.
Hypotheses 3, 4, and 5 proposed that environmental uncertainty make stronger the
relationship between differentiation and both short-term and long-term performance. It was
argued that new venture with differentiation strategy is more positively related with performance
after IPO when IPO firm face highly uncertain environment rather than when the future is more
predictable. The coefficient of the interaction terms in Table 2 was positive and significant only
in the model 2 of underpricing (p<0.001). Thus, the hypothesis 4 was supported, but hypotheses
5 and 6 testing interaction effect on the long-term performance were not supported. It appeared
that under uncertain environment, differentiation strategy is more beneficial in the short-term,
but it does not have consistent effect on the long-term performance (see Figure 1).
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FIGURE 4.1
Interaction Effects between Differentiation and Environmental Dynamism on the Short-Term Performance
DISCUSSION AND CONCLUSION
This study sought to examine the nature and extent of influence that a new venture’s
strategic choices before IPO have on its short- and long-term performance after the IPO. The
argument that new ventures’ short and long term performance is influenced by its strategic
choice of differentiation versus similarity strategies is central to research in strategic
entrepreneurship—the use of novel technologies by combining VRIN resources and capabilities
develop an initial setting for competitive advantage both in the short- and long run for a new
venture. Understanding how this process works can help direct researchers to more carefully
High
Low
Short-term performance (Underpricing)
Differentiation
Low environmental dynamism High environmental dynamism
Low High
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examine the role of VRIN resources and capabilities in relation to IPO performance, valuation
and avoiding bankruptcy and provide some guidelines to managers for estimating new venture’s
potential for creating higher return on investment.
Our results confirm the importance of the technological differentiation strategy on the
short- and long-term performance, specifically IPO performance, valuation and avoiding
bankruptcy. The differentiation strategy of a new venture is shown to have a positive effect on
new venture performance at the time of IPO because differentiation strategy develops a niche
with the use of VRIN resources and capabilities, lowers the levels of competition in the factor
and target markets, thrives on the benefits of exploration and pioneering novel technologies, and
generates excitement in the market sending powerful signal to the potential investors. Such a
strategy also helps in the superior valuation of the new ventures because such ventures can
differentiate themselves in the long run on the basis of novel knowledge and technologies
derived from VRIN resources and capabilities, and valuation of high technology initiatives is
based on the future revenue generation potential of these novel technologies. We also find that
the use of differentiation strategy also result in greater survival by avoiding bankruptcy in the
long run.
Further, our findings suggest that in the presence of uncertainty, higher level of
differentiation strategy is more positively related with new venture performance at the time of
IPO, however, our prediction that such a strategy would be as effective with long term valuation
and avoidance of bankruptcy was not supported. It is plausible that uncertain environment
enhances short term performance by giving powerful and positive signal as well as resolving
information asymmetry but over a period of time, the value of signal subsides. Uncertainty is not
beneficial in the long run.
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Theoretical Contributions and Implications
Prior literature has discussed the value of technological capital from the lens of resource-
based view. However, the effects of novel technology based differentiation strategy on the short-
and long term performance, particularly in the presence of uncertainty have not been examined
in past research. Our research highlights the role of novel technology based differentiation
strategy on the new venture performance at the time of IPO, firm valuation and survival avoiding
bankruptcy.
We contribute to the strategic entrepreneurship literature by applying the concepts of
VRIN resources and capabilities in the context of new ventures and their performance at
different stages of their lifecycle. We also contribute to the new venture creation and
performance literature by finding that exploratory strategy such as differentiation plays an
important role in providing right signals to the investors and this in turn, results superior
performance in the short- and long-term. Exploration provides greater opportunities for
generating more recombinations that result in the development of novel technologies which, in
turn have the potential to deliver competitive advantage. We illustrate how a new venture can
choose to differentiate by focusing on novel knowledge and deliver superior returns as compared
to firm that just mimic.
We apply resource-and capabilities based theories of the firm to the context of new
venture performance. We demonstrate that new ventures’ choice in terms of differentiation
versus mimicry results in performance differential. While institutional theory argues that
legitimacy determines firm’s survival and overall performance in the market, our results provide
support for the RBV perspective in that initial uniqueness derived from differentiation is more
important, especially for new ventures who are preparing for IPO. Lastly, this research also have
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implications for the technology strategy of new ventures. A high level of technological
differentiation delivers superior performance at least in the short-term even under high uncertain
environment.
Limitations and Future Research
An important limitation of this study is our reliance on patent-based data to evaluate the
differentiation strategy—the limitations of patent-based data as indicators of technological
differentiation are well-documented (Alcacer & Gittelman, 2006; Benner & Waldfogel, 2008).
However, use of such data is appropriate and usually most accurate and comprehensive for
measuring novel technologies and technological resources (Ahuja, 2000; Miller et al., 2007).
Nevertheless, we would like to see future research use survey and interview methodologies to
capture differentiation strategy. Additionally, this paper mainly discusses technological
differentiation of a new venture, and investigates its implication for performance. Since our
fining provides support for capability perspective, scholars may find an interest in comparing
institutional theory and resource based view directly by investigating strategic factors that
supports legitimacy and uniqueness separately, and their implication for performance. Lastly,
longitudinal data could also be used to address questions regarding the role of differentiation and
performance through various stages of new ventures’ life cycle.
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CHAPTER FIVE
DISSERTATION SUMMARY AND GENERAL CONCLUSION
This dissertation investigated the issue of innovation and entrepreneurship with three
different concepts: diversification, boundary expansion, and differentiation. The first essay looks
into the conditions under which the diversified firm improves their innovation output. By
integrating the insights of organizational search and contingencies literature, we argues that there
is a strategic fit among diversification, search scope, and technological capital, and the fit leads
to higher innovation productivity. With the longitudinal data analysis, it is found that related
diversification strategy increase innovation productivity when the firm pursues local search,
while the unrelated diversification strategy increase innovation output when the firm pursues
distant search. Also, the empirical results provide support for that argument that the
technological capital is important factors to take advantage of opportunities from broader
corporate scope. Our findings mainly contribute to the diversification literature in that the effect
of diversification on innovation is not simple.
The second essay investigates organizational boundary expansion activities in the early
stage. We focus on young firm’s preference between internal market and external market to
search and renew their competencies. The main argument is that young firms’ boundary choice is
influenced by both their resource portfolio and external factors, which are the characteristics of
environment and industry. The analysis of U.S. sample provides evidence of our argument.
Theoretically, it implies not only that the nature of potential value of resources should be
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understood differently in the life cycle, but also that capability perspective derived from resource
based view is useful to explain young firms’ boundary expansion.
Finally, the third essay explores the performance implication of differentiation strategy.
Using signaling theory, we address how the patterns of differentiation in the pre-IPO influence
the new venture’s short-term and long-term performance in the post IPO stage. It is found that
the external investors perceive that new firms with differentiation strategy will better compete
with others in the industry, especially under uncertain environment. Thus, this finding support
for our argument that differentiation is more beneficial than similarity to the new venture who is
preparing for IPO.
In sum, three essays contribute to the literature in the strategic management field by
showing that a particular strategy and resource have different implications for performance,
boundary expansion, and innovation. Additionally, we suggest scholars to use contingency
approach in that the organizational and environmental contingencies may provide better lens to
understand the behavior of the firms.