division of the history of chemistryacshist.scs.illinois.edu/meetings/2018-spring/hist 2018... ·...

American Chemical Society

Division of the History of Chemistry

Newsletter, PROGRAM & ABSTRACTS

255th ACS National Meeting

New Orleans, LA

March 18-22, 2018

Nicolay V. Tsarevsky, Program Chair

http://www.scs.uiuc.edu/~mainzv/HIST/awards/logo.htm

Officers - Division of the History of Chemistry

Chair: Ronald Brashear

Science History Institute

315 Chestnut Street

Philadelphia, PA 19106

Phone: (215) 873-8284

Fax (215) 629-5284

Email: [email protected]

Chair-Elect: Daniel Rabinovich

UNC Charlotte Chemistry

9201 University Blvd

Charlotte, NC 28223-0001

Phone: (704)687-5105

Fax (704)687-0960


Past Chair: Gary Patterson

Department of Chemistry

Carnegie Mellon University

Pittsburgh, PA 15213

Phone: (412) 268-3324

Fax: (412) 268-1061


Secretary-Treasurer: Vera V. Mainz

2709 Holcomb Drive

Urbana, IL 61802

Phone: (217) 328-6158


Program Chair: Nicolay V. Tsarevsky


Southern Methodist University

3215 Daniel Ave.

Dallas, TX 75275

Phone: (214) 768-3259

Fax: (214) 768-4089


Bulletin Editor: Carmen J. Giunta

Le Moyne College

1419 Salt Springs Rd.

Syracuse, NY 13214-1399

Phone: (315) 445-4128

Fax: (315) 445-4540


Councilor: Mary Virginia Orna


College of New Rochelle

New Rochelle, NY 10805

Phone: (914) 310-0351

Fax: (914) 654-5387


Councilor: Roger A. Egolf

Pennsylvania State University - Lehigh Valley

Campus, 2809 Saucon Valley Road

Center Valley, PA 18034

Phone: (610) 285-5110

Fax: (610) 285-5220


Alternate Councilor: Joe Jeffers

Ouachita Baptist University

410 Ouachita Street, Box 3786

Arkadelphia, AR 71998-0001

Phone: (870) 245-5216

Fax: (870) 245-5241


Alternate Councilor: Arthur Greenberg


University of New Hampshire

Parsons Hall

Durham, New Hampshire 03824

Phone: 603 862-1180

Fax: 603 862-4278


Historian: Gary Patterson


Carnegie Mellon University

Pittsburgh, PA 15213

Phone: (412) 268-3324

Fax: (412) 268-1061


Archivist: John Sharkey

1559 Grouse Lane

Mountainside, NJ 07092

Phone: (908) 654-3432


mailto:[email protected]








1

Mission Statement

The Division of the History of Chemistry (HIST) of the American Chemical Society (ACS) seeks to advance knowledge and appreciation of the history of the chemical sciences among chemists, students, historians of science, and the broader public by

Encouraging research and scholarship in history of the chemical sciences; Providing a welcoming environment for the discussion of history of chemistry in a variety of

venues, particularly in symposia at national ACS meetings; Serving as a resource for chemical scientists in general, and members of the ACS in particular, who

seek to understand the roots of their discipline, sub-discipline, or interdisciplinary subject; Recognizing major achievements from the past in the chemical sciences and the individuals who

made those achievements; Publishing a scholarly journal in history of chemistry; Interacting with other organizations interested in the history of science; and Adding value to the ACS by helping it achieve its vision and missions.

Division Governance

Message from the HIST Division Chair As we enter 2018, HIST continues to support excellent work in the history of

chemistry. At the Washington DC Fall meeting we had a half-day symposium

celebrating the ACS Landmarks Program's 25th Anniversary. The Landmarks

Program is a very popular outreach program for the ACS that originated in the

HIST Division. HIST also put on a full-day symposium called “Ladies in

Waiting for Nobel Prizes: Overlooked Accomplishments of Women Chemists,”

co-sponsored with PRES, PROF, and WCC that was written up in C&EN. The

symposium ended with a dramatic presentation by the Oregon-based Portal

Theater group of “No Belles,” about women Nobel Prize winners and non-

winners. The symposium was a follow-up to the previous Posthumous Nobel

Prize symposium in San Diego and has also been approved for a symposium volume.

The New Orleans meeting is shaping up to be an outstanding one, with a two-day symposium organized by

Mary Virginia Orna on “Food at the Crossroads: Water, Energy, Environment, Technology.” It will be split into

three parts, I. Food: Evolution and Trends; II. Food: Product of Energy and Technology; III Food: Dependent

on Water. Support for this symposium is provided by an ACS Division Innovative Project Grant. In addition we

will have a special symposium honoring the 2017 HIST Award winner, Jeffrey Seeman. Some of the speakers

scheduled to present include Robert G. W. Anderson, Peter Goelitz, Dudley Herschbach, Roald Hoffmann,

Maureen Rouhi, and Harriet Zuckerman. HIST is also co-sponsoring with YCC a symposium entitled

"Molecules that Changed the World" where industrial speakers from Dow Chemical, Dow AgroSciences,

Corning, and Honeywell have been invited to tell the stories of chemistries that resulted in changing the world

in which we live. The intent of the symposium is to help younger chemists understand some of the recent

history of their profession as a way to inspire them to go out and make a difference. HIST will also be present at

more and more ACS regional meetings. We will be sponsoring a session at the 2018 Southwest Regional

Meeting in Little Rock, Arkansas.

Unfortunately, due to recent travel restrictions, a planned special workshop organized by Jeff Seeman on the

history of chemistry in Cuba and Latin America that was to be held in Havana in January 2018 did not take

place. The workshop was supported by an ACS Division Innovative Project Grant.

There will be a conference at the Science History Institute (formerly the Chemical Heritage Foundation) in

Philadelphia on October 29–30, 2018 on the diverse approaches of chemists, historians, and philosophers who

http://www.scs.uiuc.edu/~mainzv/HIST/index.php

2

work across a variety of time periods and subject matters to the history of chemistry and the life sciences. I hope

that many of you will be able to attend! And if you are planning ahead, the International Society for the

Philosophy of Chemistry is meeting in Bristol, England, on July 16–18, 2018 and the 12th International

Conference on the History of Chemistry will be held in August 2019 in Maastricht, Netherlands.

On the awards front, I am thrilled that the 2018 HIST Award winner has been selected and it is David Lewis,

professor of chemistry at the University of Wisconsin-Eau Claire. David’s work on the development of organic

chemistry in pre-Soviet Russia is incredibly interesting, important, and prolific, and well-deserving of this

award!

Thanks again for being a HIST member and we appreciate your support!

Ronald Brashear, HIST Chair

Report of Councilors, Division of the History of Chemistry 254th ACS National Meeting – Washington, DC, August 20-24, 2017

Actions of the Council

Election Results: Elected Committees of Council

By electronic ballot, the Council elected Karl S. Booksh, Mark D. Frishberg, Zaida C. Morales Martinez,

and Linette M. Watkins for three-year terms (2018-2020), and Ella L. Davis for a one-year term (2018) on

the Council Policy Committee (CPC).

By electronic ballot, the Council elected Michael Appell, Neil D. Jespersen, Mamie W. Moy, Eleanor D.

Siebert, and Julianne M.D. Smist for three-year terms (2018-2020) on the Committee on Nominations and

Elections (N&E).

By electronic ballot, the Council elected Mitchell R. M. Bruce, Jetty Duffy-Matzner, Martha G.

Hollomon, Diane Krone, and Robert A. Pribush for three-year terms (2018-2020) on the Committee on

Committees (ConC).

Other Council Actions

Amendments to the ACS Bylaws

A recommendation by the Committee on Membership Affairs that Council approve the Petition on

International Chemical Sciences Chapters narrowly failed to achieve the two-thirds majority required to

amend the Bylaws. The proposal would have amended Bylaw IX, Section 4, to permit financial support

for International Chemical Sciences Chapters and to remove language from the Bylaws prohibiting

Chapters from having representation on Council.

Probationary Division of Space Chemistry

The Council defeated a proposal from the Committee on Divisional Activities that it establish a

probationary Division of Space Chemistry, effective January 1, 2018.

Change in Local Section Territory

On the recommendation of the Committee on Local Section Activities, the Council approved a petition

from the South Jersey Local Section to annex the unassigned and adjacent territory of Ocean County, New

Jersey.

Resolutions

The Council passed resolutions in memory of deceased Councilors; acknowledging President Allison A.

Campbell’s service as presiding officer of the Council; and in gratitude for the officers and members of the

Chemical Society of Washington, the host Section for the 254th National Meeting, the divisional program

chairs and symposium organizers, and ACS staff.

3

Highlights from Committee Reports

Nominations and Elections

The Committee on Nominations and Elections solicits Councilors’ input of qualified individuals for

President-Elect and/or Directors for future consideration. Suggestions may be sent to [email protected].

Ballots for the 2017 fall national election will be distributed on September 29, with a voting deadline four

weeks later, on October 27. In a change of procedures, all members with an email address on file and

eligible to vote will receive an electronic ballot with the option to request a paper ballot. Those members

with no email address on file will be sent a paper ballot with the option to still vote electronically. The

ACS election vendor, Survey & Ballot Systems, will send three email reminders during the voting period

to those who have not voted as of the reminder date.

Budget and Finance

The Society’s 2017 Probable 1 Projection calls for a Net from Operations of $25.3 million. This is $2.1

million favorable to the Approved Budget and $1.6 million higher than 2016. Total revenues are projected

to be $553.0 million, which is $2.4 million unfavorable to the budget, but 5.0% higher than the prior year.

Total expenses are projected at $527.6 million, which is $4.5 million favorable to the budget, and 4.9%

higher than 2016.

The Committee considered several program funding requests for 2018, and on its recommendations, the

Board subsequently approved funding for the ACS Online Course in Laboratory Safety and the New

Faculty Workshop Series for inclusion in the 2018 Proposed Budget and the 2019-2020 Forecast.

Additional information can be found at www.acs.org, at the bottom of the page, click ‘About ACS’, then

‘Financial’. There you will find several years of the Society’s audited financial statements and IRS 990

filings.

Washington Meeting Attendance

The theme of the 254th ACS National Meeting was “Chemistry’s Impact on the Global Economy.” As of

Tuesday evening, August 22, attendance was:

Attendees 7,938

Students 2,997

Exhibitors 1, 068

Expo only 475

Guest 426

Total 12,904

Petitions to Amend the Constitution and Bylaws

New petitions to amend the Constitution or Bylaws must be received by the Executive Director no later

than November 29, 2017 to be included in the Council agenda for consideration at the spring 2018 meeting

in New Orleans. Contact the Committee on Constitution and Bylaws with any questions or requests for

information at [email protected]

HIST Councilors

Mary Virginia Orna is serving her first term as a member of the Divisional Activities Committee (DAC)

and the Division Enhancement and Outreach Subcommittee. She was able to report on several changes that

will take place in areas of DAC oversight, particularly with respect to the criteria and management of the

Innovative Grants Program. She also reported on ACS imminent changes to the website and ACS branding

unification.

Roger Egolf is serving his first term as an associate on the Meetings and Expositions Committee and its

Technical (Programming) Subcommittee.

Report prepared by Mary Virginia Orna and Roger Egolf, Councilors


http://www.acs.org/


4

News

David Lewis to Receive 2018 HIST

Award

The History of Chemistry Division of the

American Chemical Society is pleased to announce

that David Lewis of the University of Wisconsin-

Eau Claire of the 2018 HIST Award for

Outstanding Achievement in the History of

Chemistry. This international award has been

granted since 1956 under sequential sponsor-ships

by the Dexter Chemical Company, the Edelstein

Foundation, the Chemical Heritage Foundation,

and the History of Chemistry Division. The event

includes presentation of a monetary prize and a

plaque, a symposium honoring the work of Dr.

Lewis, and a lecture by the awardee; it will take

place at the American Chemical Society’s Fall

2018 meeting in Boston.

David Lewis (known to

his friends and colleagues

also as Дэвид Эдуинович

Льюис) was born far from

the bright lights in the

South Australian town of

Tailem Bend. Eventually

he graduated from

Salisbury High School in

a suburb of Adelaide as

Head Prefect, and moved

on to the University of

Adelaide, where he

graduated with Honors in Organic Chemistry in

1973. He continued with graduate research in

natural products until he was beckoned to the

United States and the state of Arkansas in 1977.

And he lived happily ever after.

Professor Lewis earned tenure and the rank of

Associate at Baylor University in 1988, but moved

on to South Dakota State University, where he

became a Full Professor in 1993. He was called to

The University of Wisconsin- Eau Claire in 1997

as Chair of the Chemistry Department, where he

continues a very active program in synthetic

organic chemistry.

Head Prefects don’t always stick to the main

road, and David gained an interest in the history of

organic chemistry. He also joined the Division of

the History of Chemistry and started publishing in

the Bulletin for the History of Chemistry (now 15

papers, including two Best Paper Awards in 1997

and 2010). He served as the Chair of the Division

from 2003-2005.

The area of interest for Professor Lewis has

been organic chemistry in Russia, especially at

Kazan Chemistry School. Not only has he become

the leading scholar in this area, he is recognized

by the Russians as the author of “a wonderful

series of works devoted to the history of Russian

chemistry.” His collected works were published in

Russian in 2016. He has been invited several

times to give major lectures at Kazan (in Russian).

His 2012 book, Early Russian Organic Chemists

and their Legacy has been hailed as the most

important contribution to this previously

understudied area.

David Lewis has been one of the most frequent

speakers at American Chemical Society meetings

in the Division of Chemistry over the last 25

years, and has contributed to many notable

symposia (especially Characters in Chemistry).

His work was recognized in 2012 with a DSc.

Degree from the University of Adelaide, and he

was elected a Fellow of the Royal Society of

Chemistry in 2015.

David Lewis’s achievements will be celebrated by

HIST during the Fall 2018 ACS meeting in Boston,

where a special symposium will be held in his

honor, followed by the traditional HIST award

dinner.

Chemical Heritage Foundation is now

Science History Institute

February 1, 2018

The 35-year-old organization will celebrate a

new name at its Philadelphia headquarters this

evening.

5

The Chemical Heritage Foundation (CHF) has

changed its name to the Science History Institute.

This change follows the 2015 merger with the Life

Sciences Foundation (LSF), an organization that

focused on the history of the life sciences and

biotechnology. The new organization focuses on

the history of chemistry, chemical engineering,

and the life sciences.

At the end of 2015 the boards of CHF and the

San Francisco-based LSF approved a merger of

the two organizations. Meetings between CHF and

LSF revealed plans and ambitions that were

remarkably similar. Rather than continue on

parallel paths, leadership on both sides decided to

bring the two organizations together. However,

the name Chemical Heritage Foundation didn't fit

the new focus of chemistry, chemical engineering,

and the life sciences. The new name, Science

History Institute, describes what the organization

does today (studies the history of the chemical and

molecular sciences and accompanying engineering

fields) and leaves room to explore emerging fields

as they develop.

The Science History Institute’s president and

CEO, Robert G. W. Anderson, the former head of

the British Museum, said, “This is a thrilling

moment in the history of our organization. Our

collections and our interests are broadening, and

the new name will be very useful to us in the

future.”

The Institute will celebrate this milestone in its

history with a celebration tonight at its

headquarters in Old City Philadelphia, which

leaders in the cultural, political, scientific, and

academic sectors are scheduled to attend. The

program portion of the evening will be emceed by

Maiken Scott, the host and creative director of

WHYY’s weekly health and science show /The

Pulse/.

Along with the new name, the Institute is

debuting its new digital collections website

<https://digital.sciencehistory.org/> featuring

more than 5,000 items, including books,

photographs, museum objects, letters, and

advertisements. The site, which is available on the

Institute’s new website, sciencehistory.org

<https://www.sciencehistory.org/home>, is

composed of highlights from the Institute’s

museum, library, and archival collections.

More than 1,000 of these images, primarily of rare

books and museum objects, are being released as

public domain, free of copyright, and may be used

without requesting permission. “Users will see

culturally and intellectually significant items

related to the history of science from the Roman

Empire through the 21st century,” said Michelle

DiMeo, the Science History Institute’s director of

digital library initiatives. “For the first time ever,

select items from our museum, library, and

archival collections appear together in one

database, so one could view a pH meter

instruction manual held in our archives alongside

the actual pH meter object in our museum.”

About the Science History Institute

Formed by the merger of the Chemical Heritage

Foundation and the Life Sciences Foundation, the

Science History Institute collects and shares the

stories of innovators and of discoveries that shape

our lives. We preserve and interpret the history of

chemistry, chemical engineering, and the life

sciences. Headquartered in Philadelphia, with

offices in California and Europe, the Institute

houses an archive and a library for historians and

researchers, a fellowship program for visiting

scholars from around the globe, a community of

researchers who examine historical and

contemporary issues, an acclaimed museum that is

free and open to the public, and a state-of-the-art

conference center.

A Note about the HIST Archives from

the Archivist

Since about 2005, the HIST Archives have been

housed at the Chemical Heritage Foundation (the

Science History Institute as of February 1, 2018)

in Philadelphia.

As Archivist for HIST, I am responsible for

keeping the archives up to date, and for preparing

a Finder’s Guide for researchers. The archives

contain 49 Hollinger boxes of archived material

dating back to the 1960s. The material includes all

awards that have been sponsored by HIST,

programs and abstracts of national meetings,

newsletters, official Board Minutes, HIST

Bulletins and much more. What there is very little

6

of in the archives are copies of papers presented at

HIST, and photographs. As space is limited at

CHF, we cannot accept all material related to

HIST. But as you decide to downsize, please

consider sending copies of the papers that you

have given, and photographs from your career as a

chemist or other famous chemists (with detailed

captions please). Please know that any material

donated will find an environmentally safe home at

CHF, and be available to future researchers.

I can be contacted by email

([email protected]) or mail (John B.

Sharkey, 1559 Grouse Lane, Mountainside NJ

07092).

BULLETIN FOR THE HISTORY OF CHEMISTRY A publication of the Division of the History of Chemistry of the American Chemical Society

Available online: http://www.scs.illinois.edu/~mainzv/HIST/bulletin/index.php

PAPER SUBMISSIONS: Articles of 4-20 pages, double-spaced (excluding references) should be submitted electronically by email

attachment to the Editor, Carmen Giunta, at [email protected].

The title of the article should be of reasonable length (up to 15

words); a subtitle may be included if appropriate. Authors should

strive to make the title descriptive of the specific scope and content

of the paper. Preferred file formats for submissions are .doc, .docx,

and .rtf.

Full instructions for authors can be found at

http://www.scs.illinois.edu/~mainzv/HIST/ info/bull-info.php

or in the back cover of all issues of the Bulletin.

All matters relating to manuscripts, etc. should be sent to:

Prof. Carmen Giunta

Editor, Bulletin for the History of Chemistry

Le Moyne College

1419 Salt Springs Rd.

Syracuse, NY 13214-1301



http://www.scs.illinois.edu/~mainzv/HIST/bulletin/index.php

http://www.scs.illinois.edu/~mainzv/HIST/%20info/bull-info.php


7

HIST Programming

Message from the HIST Program Chair

I am delighted to start the newest journey of my professional life as the

Program Chair of what is certainly the most interdisciplinary division of the

ACS - HIST. The previous program chair (who stayed in that position for a

whole decade!), Seth Rasmussen, has been a great and patient mentor to me

over the past several years, and continues to be a gold mine of information

and advise, and I am very grateful for all his help. Knowing that he is and will

continue to be around makes this adventure much less unnerving. I very much

look forward to serving the Division and you – the current and future HIST

members. I hope we can all work together and exchange ideas about

forthcoming programming (and more), so that HIST will feel like home to an

increasing number of curious individuals eager to learn about the origins,

transformation, and growth of ideas and methods of chemistry as well as the lives of the individuals who

made them possible. Our program during the NOLA meeting is rather rich and diverse (as expected). In

harmony with the main topic of the ACS Meeting, “Nexus of Food, Energy, and Water”, Mary Virginia

Orna and Alvin Bopp organized a day-and-a-half (Sunday afternoon and all day Monday) symposium on

“Food at the Crossroads: Chemistry's Role in Sustainability, Past & Present”. It is hard to imagine a more

suitable place than New Orleans where one can learn about the various aspects (including history, of

course) of food! Another great highlight is the HIST Award Symposium honoring the achievements of

Jeffrey I. Seeman, which is organized by Joe Gal, and will take place on Tuesday. In addition, we will

offer two sessions (on Sunday morning and Wednesday morning) of general papers that will cover a wide

range of topics. I am sure everyone can find something exciting and appealing in our symposia and I invite

you to spread the word about them. Your friends and colleagues will very likely thank you for that! Enjoy

the meeting and we hope to see you in Boston in the fall.

Nick Tsarevsky, HIST Program Chair

HIST SYMPOSIA, 255th ACS Meeting in New Orleans, LA, March 18-22, 2018 Schedules and abstracts are listed at the end of this Newsletter.

HIST Award Banquet As part of its activities at the 255th ACS National Meeting in New Orleans, the History of Chemistry

Division of the American Chemical Society is pleased to host the 2017 HIST Award Banquet. To be

honored at the banquet will be Dr. Jeffrey I. Seeman of the University of Richmond, winner of the 2017

HIST Award. The Banquet will be held at Pigeon and Prince (129 Camp Street) on Tuesday, March 20. It

will start at 6:30 PM and will feature hearts of romaine salad with fresh Parmesan-Reggiano, garlic paprika

croutons, and creamy garlic dressing to be followed by a choice of roasted leg of lamb with wild

mushrooms, grilled eggplant caponata and parmesan truffle sauce or garlic roasted local half chicken with

faro risotto and grilled rapini, as well as and a cash bar. Tickets are $50 and can be purchased from

Vera Mainz, HIST Secretary-Treasurer. Please specify your choice of entrée. (Tickets cover the full

cost of the meal, with the exception of beverages). You can pay Vera via check or cash (exact amount

preferred) at the banquet or when you see her. If you do plan to attend, please RSVP by March 15th via

https://maps.google.com/?q=129+Camp+Street&entry=gmail&source=g

8

email ([email protected]). The Pigeon and Prince is located approximately 0.5 mile (10-minute walk)

from the Hilton New Orleans Riverside Hotel (where the HIST symposia will be held).

UPCOMING MEETINGS AND HIST DEADLINES Subject to change. Check the HIST website (http://www.scs.illinois.edu/~mainzv/HIST/) for updates.

256th ACS Meeting, Boston, MA, August 19-23, 2018

Abstract submission deadline: March 26, 2018 (https://callforpapers.acs.org/boston2018/HIST)

HIST Tutorial and General Papers. (Seeking contributors) Nicolay V. Tsarevsky, Department of

Chemistry, Southern Methodist University, Dallas, TX 75275, Phone: (214) 768-3259, email: [email protected]

Louis Pasteur's Discovery of Molecular Chirality: Review and Analysis on the 170th Anniversary. (Invited papers) Gregory S. Girolami, Department of Chemistry, University of Illinois at Urbana-

Champaign, Urbana, IL 61801, Phone: (217) 333-2729, email [email protected] and Joseph Gal,

University of Colorado Denver, email: [email protected]

Past ACS Presidents: The Life and Career of Arthur Cope. (Invited and contributed papers) Roger

Egolf, Pennsylvania State University - Lehigh Valley Campus, Center Valley, PA 18034, Phone: (610)

285-5110, Email: [email protected] and Jan Hayes, Email: [email protected]

HIST Award Symposium Honoring David Lewis. (Invited papers) Seth C. Rasmussen, Department of

Chemistry and Biochemistry, North Dakota State University, Fargo, ND 58108, Phone: (701) 231-8747,


257th ACS Meeting, Orlando, FL, March 31-April 4, 2019



Archaeological Chemistry: Art and Archaeology in the Ancient and Medieval World. (Invited and

Seeking contributors) Seth C. Rasmussen, Department of Chemistry and Biochemistry, North Dakota State

University, NDSU Dept. 2735, P.O. Box 6050, Fargo, ND 58108-6050, Phone: (701) 231-8747, email:

[email protected]; Mary Virginia Orna, Department of Chemistry, College of New Rochelle, New

Rochelle, NY 10805, Phone: (914) 310-0351, email: [email protected]

258th ACS Meeting, San Diego, CA, August 25-29, 2019




http://www.scs.illinois.edu/~mainzv/HIST/








9

Final Program

DIVISION OF THE HISTORY OF CHEMISTRY (HIST)

N. V. Tsarevsky, Program Chair

SUNDAY MORNING

Section A

Hilton New Orleans Riverside, Grand Salon D Sec 24

Tutorial & General Papers

N. V. Tsarevsky, Organizer J. S. Jeffers, Presiding

8:00 HIST 1. Chemistry in America: Seventeenth century New England and John Winthrop, Jr.. G.D. Patterson

8:30 HIST 2. WITHDRAWN

9:00 HIST 3. Early German influences on women in chemistry. R.C. White

9:30 HIST 4. Solving crime mysteries using chemistry: The early days of forensic science. N.V. Tsarevsky

10:00 Intermission.

10:15 HIST 5. Bibliometric overview of drug repurposing using PubMed. N. Baker, A.J. Williams, S. Ekins, A. Tropsha

10:45 HIST 6. History of Ethyl Corporation in Baton Rouge, Louisiana and beyond. C.D. Varnado

11:15 HIST 7. History of cyclic polymers. F.M. Haque, S.M. Grayson

11:45 HIST 8. John Herschel as a chemist. G.D. Patterson

SUNDAY AFTERNOON

Section A


Food at the Crossroads: Chemistry's Role in Sustainability, Past & Present

Cosponsored by AGFD, CHED, DAC, MPPG and PRES; Financially supported by ACS Louisiana Local Section A. F. Bopp, Organizer

M. V. Orna, Organizer, Presiding

1:00 Introductory Remarks.

10

1:10 HIST 9. Impact of agriculture on food supply: A history. L. Simon Sarkadi

1:40 HIST 10. Critical impact of NaCl on global human history and development. M. Duerst

2:10 HIST 11. Sweet chemistry: A philatelic history of sugar. D. Rabinovich

2:40 Intermission.

3:00 HIST 12. History of sugar and sweeteners. G. Eggleston

3:30 HIST 13. Uncorking the past: Alcoholic beverages as the universal medicine before synthetics. P.E. McGovern

4:00 HIST 14. Why we do this to ourselves? The chemical/botanical history of chili peppers. R. Mullin

4:30 Concluding Remarks.

SUNDAY EVENING

Hilton New Orleans Riverside, Grand Salon B Sec 10

6:00 - 8:00 HIST Executive Committee Meeting

MONDAY MORNING

Section A

Hilton New Orleans Riverside Grand Salon D Sec 24


Cosponsored by AGFD, CHED, DAC, MPPG and PRES; Financially supported by ACS Louisiana Local Section A. F. Bopp, M. V. Orna, Organizers D. Rabinovich, Presiding


8:40 HIST 15. Cuisine and chemistry: From Liebig’s “Dietetic Trinity” to molecular gastronomy. L. Civitello

9:10 HIST 16. Harvey Wiley and the transformation of the American diet. J. Rees

9:40 HIST 17. History of dietary guidelines and their impacts. E. Schoffers

10:10 Intermission.

10:30 HIST 18. Eating chemicals: The flavor industry and its chemical relations. N. Berenstein

11

11:00 HIST 19. Genetically modified organisms (GMOs) as part of our food sources: Are you what you eat? P.L. Daubenmire

11:30 HIST 20. Carotenoids, cochineal and copper: Food coloring through the ages. M. V. Orna


Molecules that Changed the World

Sponsored by YCC, Cosponsored by HIST and I&EC

MONDAY AFTERNOON

Section A



Cosponsored by AGFD, CHED, DAC, MPPG and PRES; Financially supported by ACS Louisiana Local Section M. V. Orna, Organizer

A. F. Bopp, Organizer, Presiding


1:40 HIST 21. How food culture survives and thrives in a changing world. P. Tooker

2:40 HIST 22. Evolution of flour: From New England Graham to New Orleans Swans Down. L. Civitello

3:10 Intermission.

3:30 HIST 23. Effects of fertilizer on food supply. L. Simon Sarkadi

4:00 HIST 24. Role of chemical analysis in food safety and food authentication. E. de Ronde

4:30 HIST 25. What 18 inches could mean? Relative sea level rise and Louisiana. A. Gaudé

5:00 HIST 26. Student/teacher essay contest winners: The best in the chemical history of food. S.C. Rukes, M. V. Orna


Information Legacy of Eugene Garfield: From the Chicken Coop to the World Wide Web

Sponsored by CINF, Cosponsored by HIST and PRES

12

Tales of Chemistry & Cocktails

Sponsored by YCC, Cosponsored by HIST

MONDAY EVENING

Section A

Ernest N. Morial Convention Center Halls D/E

Sci-Mix

N. V. Tsarevsky, Organizer

8:00 - 10:00

HIST 7. (See previous listings); HIST 31, 45, 48-49. (See subsequent listings).

TUESDAY MORNING

Section A


HIST Award Symposium Honoring Jeffrey I. Seeman

J. Gal, Organizer, Presiding


8:30 HIST 27. Seeman, Padwa, Gupton and five membered heterocycles: How organic chemistry brought us together. J.T. Gupton

9:00 HIST 28. Two examples of serendipity in my scientific career. E. Juaristi

9:30 HIST 29. My journey from a never-heard land to ... to the land of opportunities. M. Hajaligol

10:00 HIST 30. Thoughts on the relevance of history. M. Caserio

10:30 Intermission.

10:45 HIST 31. Publishing chemical history: Lessons learned. E.E. Wille

11:15 HIST 32. Resilience: When life hands you a lemon, make lemonade. M. Rouhi

11:45 HIST 33. History of and history in Angewandte Chemie. P.K. Goelitz

13

TUESDAY AFTERNOON

Section A


HIST Award Symposium Honoring Jeffrey I. Seeman

J. Gal, Organizer, Presiding M. V. Orna, J. Seeman, Presiding

1:00 HIST 34. Reflections on the relationships of error to discovery in chemistry. C.J. Giunta

1:30 HIST 35. Origins: God or no God, that is the question. M.T. Bowers

2:00 HIST 36. Chemical receptors and transduction events on the mammalian tongue. S. Simon

2:30 HIST 37. Three evocative ideas: The Matthew effect, post mature contributions and the role of the role model. H. Zuckerman

3:00 Intermission.

3:15 HIST 38. Best of all possible worlds. R. Anderson

3:45 HIST 39. "Go for it": Words of wisdom from my fathers. L.M. Shea

4:15 HIST 40. FDA history, drug inspection and compliance overview. B. Higgins

4:45 HIST 41. Emergence of molecular reaction dynamics. D.R. Herschbach

TUESDAY EVENING

HIST Award Banquet honoring Dr. Jeffrey I. Seeman 6:30 - 8:30 Banquet at Pigeon and Prince (129 Camp Street)

WEDNESDAY MORNING

Section A


Tutorial & General Papers

N. V. Tsarevsky, Organizer, Presiding

8:15 HIST 42. History of the American chemical laboratory manual. W.P. Palmer

14

8:45 HIST 43. Victor Grignard (1871-1935) and Henry Gilman (1893-1986): Pioneers in organometallic chemistry. R.K. Dieringer, H.K. North, D.E. Lewis

9:15 HIST 44. Wolff-Kishner reduction: Biography, discovery and development. D.E. Lewis

9:45 HIST 45. Development of Butlerov's Structural Theory, 1859-1862. C.S. Goedhart, D.R. Rothbauer, S.N. Raspel, D.E. Lewis

10:15 Intermission.

10:30 HIST 46. Mining of elements versus discovery, analysis, and separation of elements. C. Hahn

11:00 HIST 47. August Michaelis: A pioneer of phosphorus chemistry. D. Selent

11:30 HIST 48. Markovnikov on isomerism in organic chemistry. D.E. Lewis

12:00 HIST 49. Mutual influence of atoms in chemical compounds—Markovnikov's Rule. D.E. Lewis

15

ABSTRACTS

HIST 1 Chemistry in America: Seventeenth century New England and John Winthrop, Jr.

Gary D. Patterson, [email protected]. Carnegie Mellon University, Pittsburgh, Pennsylvania, United States

While standard histories of New England focus on religious and political issues, the Massachusetts

Bay Company was a commercial venture, capitalized by rich Puritans. They expected to make

money, and recent treatments of this period in American history explain the “economic culture of

Puritan New England.” No one person exemplified this theme more than John Winthrop, Jr. His

life and career as a chemist will be presented. There is now a large and growing corpus of books

on Winthrop and his story is a landmark in the history of chemistry in America.

HIST 2 WITHDRAWN

HIST 3 Early German influences on women in chemistry

Ricky C. White, [email protected]. Sam Houston State Univ, Huntsville, Texas, United States

The influences of August von Hofmann on female careers have been shown to be far reaching,

from Clara immerwahr tp Marsarete von Wrangelle to Rachel Lloyd, to Ruth Okey and Alice

Morgan. In this time, we shall explore some of the mysogeny (Wilhelm Ostwald) as well as the

encouragement (Viktor Meyer) some females have seen. Many women have made incredible

advances in Nutrition. Dorothea Erxleben, the first fmale MD, wrote on obstacles to women in

education, citing housework and food preparation. Wilhelm Ostwald said that females "natural

inclination is gto motherhood above any "unnatural freakish inclination to scientific discovery" Yet, once the Activation barrier was broken, scientific discoveries snowballed.

HIST 4 Solving crime mysteries using chemistry: The early days of forensic science

Nicolay V. Tsarevsky, [email protected]. Department of Chemistry, Southern Methodist University, Dallas, Texas, United States

Advances in systematic chemical analysis, which involved the discovery of color and precipitation

reactions, the development and improvement of instruments such as spectroscopes,

microscopes, and colorimeters, and especially the use of these new methods and tools for

qualitative determinations, were essential prerequisites for a new scientific field to emerge that

could be used to solve criminal cases – forensic chemistry. One of the best known early examples

of forensic chemical analysis that found uses in court cases (with mixed success) was the test

described in 1836 by the Scottish chemist James Marsh (1794-1846) for the detection of minute

amounts of arsenic in biological and other samples. However, there are several earlier books

dedicated to the detection of (mostly metallic) poisons, including “Traite des Poisons” (1814-

1815) by Mateu Orfila (1787-1853), A Manual of Toxicology” (2nd ed., 1823) by William Stowe, “A

Treatise on Poisons” (1829) by Robert Christison (1797-1882), and “Kratkoe Izlozhenie Sudebnoy

16

Meditsiniy”, i.e., “Brief Exposition of Forensic Medicine” (1832; 2nd ed., 1838) by Sergey Gromov

(1774-1856). By the second half of the 19th Century, numerous reagents had been discovered for

the detection of plant poisons, e.g., alkaloids, and books describing a variety of color and

precipitation reactions were published, including the “Micro-Chemistry of Poisons” (1867) by

Theodore George Wormley (1826-1897), which provides illustrations of the appearance (as seen

under the microscope) of crystalline products formed between metallic complexes and alkaloids

that could be used for the identification of the latter compounds. Some of the early works dedicated to the detection of toxic substances will be discussed in this presentation.

HIST 5 Bibliometric overview of drug repurposing using PubMed

Nancy Baker2, [email protected], Antony J. Williams3, Sean Ekins1, Alexander Tropsha2. (1)

Collaborations Pharmaceuticals, Fuquay Varina, North Carolina, United States (2) Univ of North

Carolina, Chapel Hill, North Carolina, United States (3) ChemConnector, Wake Forest, North

Carolina, United States

Finding new uses for existing drugs is called drug reprofiling, repositioning, redirecting, or

repurposing and it is increasingly recognized as a way to find new disease treatments at lower

cost. We provide a bibliometric overview of the practice of repurposing by analyzing drug–disease

relationships text-mined from PubMed. Our analysis extends back to drug treatments from the

1940’s and provides a historical overview up to the present day. While the attention to

repurposing may be new, we find that the practice is certainly not. Most drugs have indeed been

tested as treatments against more than one disease and some compounds have been tried in

hundreds of diseases. Three of these highly reprofiled drugs – the antipsychotic chlorpromazine,

the antimalarial chloroquine, and the antiulcer medicine cimetidine were examined in depth by

looking at their repurposing activity over time, starting with the first annotation of the drug in the

literature up through recent publications. We characterized the diseases and therapeutic areas

these drugs were directed at and what evidence motivated researchers to redirect the drugs.

While in the majority of cases these drugs were tried on diseases in therapeutic areas close to

their original use, there are striking, and perhaps instructive repurposing attempts where drugs have been tried in unexpectedly novel therapeutic areas.

HIST 6 History of Ethyl Corporation in Baton Rouge, Louisiana and beyond

C. D. Varnado1,2, [email protected]. (1) Albemarle Corporation, Baton Rouge,

Louisiana, United States (2) Chemistry, Louisiana State University, Baton Rouge, Louisiana, United States

Ethyl Corporation was a joint venture created by Standard Oil and General Motors to manufacture

tetraethyllead (TEL), the anti-knock gasoline additive that enabled development of the higher-

powered engines which drove the transformation of society in the 20th Century, the age of the

automobile. In 1937, Ethyl constructed a flagship TEL manufacturing plant in Baton Rouge,

Louisiana. Excerpts from 1940s issues of the monthly employee bulletin provide snapshots of

various aspects of working for Ethyl and life in Baton Rouge during that era. In 1962, Albemarle

Paper Company, with the ambitious F. D. Gottwald at the helm, made Wall Street history by

orchestrating what was then the largest-ever leveraged corporate buyout, acquiring Ethyl, a

company 18 times its size. Gottwald then leveraged Ethyl’s substantial cash flow and technical

expertise to build a diversified chemical manufacturing empire that kept growing despite the

phase out of its namesake product. Ultimately, in the 1990s, the huge conglomerate split into

17

several smaller and more specialized companies. The specialty chemicals business was spun off

as Albemarle Corporation, which maintains an R&D presence in the footprint of the former TEL

manufacturing plant in Baton Rouge. Gottwald’s passion for strategic acquisitions lives on in the

company today, as evidenced by the recent acquisition of Rockwood Holdings. Albemarle is poised to continue its growth story in the years to come as a top producer of lithium.

HIST 7 History of cyclic polymers

Farihah M. Haque, [email protected], Scott M. Grayson. Chemistry, Tulane University, New Orleans, Louisiana, United States

The earliest discovery of cyclic polymers is credited to Freifelder et al. for findings of cyclic DNA

(1964), an idea originally hypothesized by Jacob and Wollman (1958). Since then, a number of

cyclic biomacromolecules have been discovered, including cyclic lipids and polypeptides. The

cyclic architecture has been attributed to many exotic properties including enhanced stability as

demonstrated by a resistance to degradation under thermal and enzymatic conditions. Such

biological studies foreshadow decades of research both meticulously synthesizing and

characterizing cyclic polymers. Early examples of cyclic polymers were formed using the ring-

chain equilibrium approach, typically yielding highly impure samples requiring extensive forms of

purification. Since then, a number of optimized methods have been established, namely the ring

expansion and ring closure approaches. These recent synthetic advances are finally allowing

researchers to study many of the unknown and unique materials and biological properties of

synthetic cyclic polymers. The body of work presented will provide an overview of the synthetic

advances toward forming the novel cyclic topology that was once merely hypothesized, while also

highlighting some potential applications.

HIST 8 John Herschel as a chemist

Gary D. Patterson, [email protected]. Carnegie Mellon University, Pittsburgh, Pennsylvania, United States

While Sir John F.W. Herschel (1792-1871) will be remembered as the great astronomer that he

was, one of his great loves was chemistry. He learned it as a child from his redoubtable aunt,

Caroline Herschel, the sister of Sir William Herschel. When Smithson Tennant, who held the Chair

of Chemistry at Cambridge, died in 1815, John Herschel applied for the position. While he did not

obtain it (at the age of 23), he did maintain a lifelong interest in chemistry and made major

contributions. He is the father of photochemistry. He understood light better than anyone in the

19th century (and published a great article on it), and he developed the field of chemical

spectroscopy in the prism spectrometer age. At the end of his scientific career, he was the

President of the Chemistry Section of the British Association for the Advancement of Science.

And, like his idol, Isaac Newton, he was Master of the Mint and is buried next to Newton in

Westminster Abbey. (Yes, Newton was a great chemist too!)

18

HIST 9 Impact of agriculture on food supply: A history

Livia Simon Sarkadi, [email protected]. Food Chemistry and Nutrition, Szent István University, Budapest, Hungary

Agriculture was an established reality by at least 10,000 years ago, and has played a key role in

the development of human civilization. Agriculture provides the basic essentials for living: the

food, the beverages, the clothing, and the materials for our homes. Agriculture has undergone

significant developments since the time of the earliest cultivation. Until the Industrial Revolution,

the vast majority of the human population labored in agriculture. Development of agricultural

techniques has steadily increased agricultural productivity. Modern agronomy and agricultural

chemistry have allowed for crops to be produced in areas that previously were unsuitable for

agriculture and appropriate use of fertilizers has helped to create higher yields to counterbalance

the loss of available agricultural land. Population growth, increasing life expectancy, and

economic growth are expanding the demand for food products. It is estimated that the world’s

population will have increased to over eight billion by 2050. A rapidly expanding world

population, increasing affluence in the developing world, climate volatility and limited land and

water availability mean we have no alternative but to significantly and sustainably increase

agricultural productivity to provide food and feed.

HIST 10 Critical impact of NaCl on global human history and development

Marilyn Duerst, [email protected]. Dept Chem, University of Wisconsin, River Falls, Wisconsin, United States

Ordinary table salt has been one of the most critical factors in the social, geographic, cultural,

economic, and technological development of human societies and cultures, reaching far beyond

simply being a food flavoring and food supplement for humans and animals. This fascinating

study of salt begins in ancient times, and brings us into the 21st century, addressing modern

controversies about the role of salt in the human diet, and the chemistry of the most important alkali halide in history.

HIST 11 Sweet chemistry: A philatelic history of sugar

Daniel Rabinovich, [email protected]. Dept. of Chemistry, UNC Charlotte, Charlotte, North Carolina, United States

Sugar, the ubiquitous sweet stuff that we enjoy in our foods and drinks (sometimes too much!) is

an important source of dietary carbohydrate, mainly sucrose, and is commercially produced in a

very large scale from sugar cane or sugar beets. Although it is produced today in more than 80

countries, about 50% of the world’s annual output, currently estimated at 180 million tonnes,

comes from only four: Brazil, India, China, and Thailand. The extraction of sugar from cane has

been practiced in India and Southeast Asia for centuries and the plant was taken by Columbus to

the West Indies, where it flourished due to the tropical weather in the region. However, it was

only in 1747 that a German analytical chemist, Andreas Sigismund Marggraf (1709-1782)

announced the discovery of sugar in beets and verified that its composition was essentially the

same as that of sugar isolated from cane. The growth of beets as a source of sugar is favored in

regions with more tempered climate, especially since it requires four times less water that sugar

19

cane. This presentation will use postage stamps and related philatelic materials to illustrate the history of sugar, including various aspects of its industrial production.

HIST 12 History of sugar and sweeteners

Gillian Eggleston, [email protected]. ARS USDA SRRC, New Orleans, Louisiana, United States

Commercial sugar (sucrose) is manufactured worldwide from either sugarcane or sugar beets.

There are seven main phases in the history of sugar and sweeteners: (1) 8000 BC to 0 AD: The

extraction of juice from the sugarcane plant and domestication of sugarcane in Tropical

Southeast Asia. (2) Early centuries AD: invention of making sugar crystals from sugarcane juice

in India; improvements in sugar processing to make it more pure. (3) 700 to 1500 AD: The

spread of cultivation and manufacture of sugarcane sugar to the medieval Islamic world as well

as improvements in production methods. (4) 16th to 19th centuries: Sugar cultivation and

manufacture in the New World. (5) 19 century: Production of sugar from sugar beets precipitated

by the Napoleonic wars, and the introduction of mechanization and modern processing

technology. (6) Late 20th century: High fructose corn syrup introduced. (7) 21st century: new

natural sweeteners and other uses for sugar. All these phases will be discussed.

HIST 13 Uncorking the past: Alcoholic beverages as the universal medicine before synthetics

Patrick E. McGovern, [email protected]. Biomolecular Archaeology Project for Cuisine,

Fermented Beverages, and Health, University of Pennsylvania Museum, Philadelphia, Pennsylvania, United States

To substantiate and illustrate the centrality of Molecular Archaeology in bridging the divide

between the natural sciences and the humanities, I draw upon my laboratory’s research on

"fermentation" and “ancient medicine.” Fermentation is probably the first energy system on

Earth, which is embodied in the physiology of all animals, including humans. It is probably the

first biotechnology discovered and put to use by our species. In short, we coevolved with

microorganisms, then harnessed them to our purposes in many innovative ways—to provide

alcohol as an energy source and for dissolving botanical compounds which have medicinal

properties. Arguably, the most important fermentation system used by humankind was to make

fermented beverages. As the universal medicine, social lubricant, mind-altering substance,

religious symbol, artistic inspiration, and highly valued commodity, fermented beverages around

the world became the focus of religious cults, pharmacopoeias, cuisines, economies, and society.

The products of fermentation likely had much to do with the evolution of our bodies, brains, and

cultures, including more advanced civilizations based on the domestication of cereals and other

plants that provided the basis for permanent settlements. The speaker will show how a range of

20

increasingly more precise chemical techniques are essential to resolving key archaeological

questions, including why fermented beverages are so central to human cultures around the world

and as far back in time as we can detect them.

HIST 14 Why we do this to ourselves? The chemical/botanical history of chili peppers

Rick Mullin, [email protected]. Chemical and Engineering News, American Chemical Society,

New York, New York, United States

This talk will cover the botanical and chemical histories of chilies and capsaicin touching on my

experience growing a few varieties of “peppers” and making hot sauce. On the botanical side, I

will describe the fruit, explaining where and why capsaicin and capsaicinoids are found. I will

discuss the origin of chilies, how they have been dispersed globally, and why they are called

peppers. On the chemical side, I will explicate the molecule and means of its extraction as well as

safety concerns when dealing with pure capsaicin. I will discuss the work of scientists and

pseudoscientists who have worked with chilies and capsaicin: P.A. Bucholtz, who discovered the

means of extracting the pungent principle of peppers in 1816, L.T. Thresh who described the

principal chemical component, crystallized it and named it capsaicin in 1846, S. Kosuge and Y.

Inagaki, who identified related compounds, capsaicinoids, in 1964, and Wilbur Scoville, whose

eminently unscientific means of measuring potency of chilies—the Scoville unit/scale of 1912—is

widely used, making him more famous than the scientists. I will wrap up by discussing new

breeds of chilies, the range of heat, and the culinary importance of hot peppers, with some regional (New Orleans) flavor.

HIST 15 Cuisine and chemistry: From Liebig’s “Dietetic Trinity” to molecular gastronomy

Linda Civitello, [email protected]. Independent Scholar, Los Angeles, California, United States

In 1984, when Harold McGee wrote his groundbreaking book On Food and Cooking: The Science

and Lore of the Kitchen, he had to explain what food science was and how cooking was related to

chemistry. For the second edition, in 2004, the explanation was no longer necessary.

In the twenty years between the two editions, terroir was determined with spectrometry; gas

chromatography provided precise measurements of the capsaicin levels in a famous Louisiana

product, Tabasco sauce; flavonoids, Maillard reaction, umami, and supertaster had become

common terms. And the Nobel Prize in Physiology or Medicine was awarded for the discovery of

“odorant receptors and the organization of the olfactory system." These developments were the

continuation of the massive changes that began in 1848, when Justus von Liebig posited his

Dietetic Trinity—that humans need only protein, fats, and carbohydrates—which began the shift

away from humoral theory to science-based nutrition. Some of the other changes included: (1)

the creation of the Cold Chain—the commodification of natural ice, then ammonia-based

mechanical refrigeration. (2) Electricity, beginning with hydroelectric. (3) Advances in metallurgy

that created aluminum and stainless steel. In 1988, Molecular Gastronomy (now known as

Experimental Cooking) brought scientific inquiry to cooking processes; it destroyed what chefs for

centuries had considered common knowledge. All of these changes combined to create kitchens,

cooking, and food as we know them today. And cocktails, in which New Orleans plays no small part.

21

HIST 16 Harvey Wiley and the transformation of the American diet

Jonathan Rees, [email protected]. History, Colorado State University, Pueblo, Colorado, United States

Harvey Washington Wiley was a leading agricultural chemist, a pioneering consumer advocate,

and the head of the Bureau of Chemistry at the United States Department of Agriculture for

almost three decades. In that capacity, he became widely known as the “Father of the Pure Food

and Drug Act” because of his lobbying activities on behalf of that legislation. This paper will

examine Wiley’s impact on different classes of foods by tracing his changing ideas of what pure

food was. Wiley would come to believe that the pure food law had been a failure because of lax

enforcement, but Wiley’s ideas of how that law should have been enforced evolved a great deal

between the time he started lobbying for it at the turn of the twentieth century and his death in

1930. Wiley’s ideas about purity changed because food itself changed drastically over that same

time period. While Wiley’s preferred philosophy of strict enforcement never won the day in

Washington, his championing of foods without preservatives or additives of any kind influenced

countless manufacturers across many industries and consumers too. Meat, milk, honey, baking

powder, and whiskey are just a few of the foods that Wiley’s impacted in some way that will be

considered in this paper.

HIST 17 History of dietary guidelines and their impacts

Elke Schoffers, [email protected]. Chemistry Mailstop 5413, Western Michigan University, Kalamazoo, Michigan, United States

This presentation will address the broader impacts of human food consumption, past and present.

The phrase “you are what you eat” has long embodied the connection between the food we eat

on overall health. However, dietary choices have many more externalities, ranging from water

and energy resources to broader environmental impact.

HIST 18 Eating chemicals: The flavor industry and its chemical relations

Nadia Berenstein, [email protected]. Independent Scholar, New York, New York,

United States

While comprising a distinct branch of chemical research and manufacturing, since its origins in

the second half of the nineteenth century, the flavor chemical industry has been intimately

connected with other chemical industries, most prominently pharmaceuticals and petrochemicals.

Developments in the broader chemical marketplace have had profound consequences for

synthetic flavor production; for instance, the expanding range of chemical intermediates

produced by the postwar petrochemical industry dramatically broadened the chemical palette

available to flavor manufacturers. Flavor research has also contributed to chemistry, as in the

case of the refinement of GC-MS technologies. Although these relations have been productive,

they have also been problematic. Indeed, the “chemical” identity of flavor additives continues to

be one of the most potent charges against these substances among a public increasingly

concerned with “eating clean.” This paper examines several key moments of historical

entanglement between flavor chemicals and the products of other chemical industries as a way of

making sense of the place of this unique industry in the industrial food system. While primarily a

22

history of science and technology, this paper will also consider broader cultural contexts and responses.

HIST 19 Genetically modified organisms (GMOs) as part of our food sources: Are you what you eat?

Patrick L. Daubenmire, [email protected]. Dept of Chemistry, Loyola University Chicago,

Chicago, Illinois, United States

The debate about genetically modified organisms (GMOs) is alive and real in the United States.

Those debates range from what are the effects of modified organisms on our own and

environmental health to is it necessary to label GMOs in our markets. This presentation will trace

the pertinent history of GMOs as well as how both critical science understanding and informed

public dialog are imperative to making decisions about genetically modifying organisms and using

these organisms. Embedded within the curriculum Chemistry in Context, several instructional

resources will be surveyed: (1) presentation of techniques, (2) comparison and contrasting of

selective breeding with genetic modification, (3) broad examples of GMOs, and (4) presentation of debated material.

HIST 20 Carotenoids, cochineal and copper: Food coloring through the ages

Mary Virginia Orna, [email protected]. Chemistry, The College of New Rochelle, New Rochelle, New York, United States

Colorants used in food were of natural origin up until the middle of the 19th century. Artificial

colors began to be used after W. H. Perkin’s discovery of mauve. However, colorants were not

always beneficial: some were fraudulently used to disguise poor quality, rottenness, and identity.

Some were downright poisonous. Although there were movements to require governmental

regulation and oversight as a result of reported illnesses and deaths due to some foods,

monitoring was slow in coming and strictures varied from country to country. This paper will

document the evolution of the modern regulations for the safe coloring of food and the labeling requirements.

HIST 21 How food culture survives and thrives in a changing world

Poppy Tooker, [email protected]. Louisiana Eats!, New Orleans, Louisiana, United States

One of the great treasures of New Orleans’ 300-year history is the indigenous food culture – a

product of the many immigrant nations which have helped to shape our city. How does tradition

stand in the light of the rapidly changing 21st century world? Why is it of value? We will explore

those topics while reflecting on climate change and both natural and manmade disasters which threaten the bedrock daily.

23

HIST 22 Evolution of flour: From New England Graham to New Orleans Swans Down

Linda Civitello, [email protected]. Independent Scholar, Los Angeles, California, United States

What is a recipe that first appeared in a Boston cookbook in 1830 doing on a box of 21st century

New Orleans cake flour? What is Graham flour? All purpose? Cake? Soft? Hard? How has flour

changed since that 1830 recipe for Cup Cake? Eben Horsford’s 1875 “Report on Vienna Bread”

was something new: an in-depth chemical analysis of wheat, flour, milling technology, and

leavening. Horsford’s report detailed the impact of climate and rainfall on various types of wheat

around the world. He discussed the importance of gluten, the composition of bran, the pressure

of the millstones, how bread baking differed in the United States and Europe. He also detailed the

controversy over yeast. In 1859, Pasteur had stunned the world by using the microscope to

observe yeast for the first time; he and Liebig were at odds as to what it was and what it did. At

the end of the 19th century, American flour shifted from whole wheat to refined white in a

concerted campaign by Minneapolis milling giants. Bleaching flour resulted in a lawsuit that went

to the U.S. Supreme Court in 1914. Today, modern growers concerned about sustainability and

taste have revived landrace and heirloom strains of wheat milled with high rates of extraction.

Southern flours are unique in the types of wheat they are milled from and the levels of protein

and gluten they contain. These flours are used to produce the light and fluffy pride of Southern baking: chiffon cakes, baking powder biscuits, and cobblers.

HIST 23 Effects of fertilizer on food supply

Livia Simon Sarkadi, [email protected]. Food Chemistry and Nutrition, Szent István University, Budapest, Hungary

Maintaining good soil structure and fertility are important to ensure high agricultural productivity.

The use of fertilizers has been pivotal to securing long-term food supplies in the midst of a

growing global population. Modern chemical fertilizers include one or more of the three elements

that are most important in plant nutrition: nitrogen, phosphorus, and potassium. Chemical

engineers have applied their expertise to chemically synthesize fertilizers, herbicides, and

pesticides that promote crop growth and protect crops from weeds, insects, and other pests.

Today, the use of these products is more important than ever to meet the needs of an ever-

expanding population. Almost 40-60% of agricultural crops are grown with the use of different

types of fertilizers (synthetic or organic) which contain different chemicals and minerals. These

components, although a help in boosting the growth of plants, also have their negative side

effects in the long run. Over-fertilization of soils used for agricultural and horticultural purposes is

a growing environmental concern, as evidenced by the dead zones created by fertilizer runoff into

the Gulf of Mexico. Therefore, it is very important to apply fertilizers in an efficient way to

minimize loss and to improve their nutrient efficiency. Managing agricultural nutrients to provide

a safe food supply and secure the environment remains one of the immense challenges of the 21st century.

24

HIST 24 Role of chemical analysis in food safety and food authentication

Eric de Ronde, [email protected]. Eurofins Inc., New Orleans, Louisiana, United States

Overview of how the methods of analytical chemistry can maintain food safety and guarantee its authenticity.

HIST 25 What 18 inches could mean? Relative sea level rise and Louisiana

Albert Gaudé, [email protected]. Ag Center, Louisiana State University, Jefferson,

Louisiana, United States

With the mid-Louisiana coast being projected as “ground zero” for relative sea level rise (RSL),

our State is destined to have a number of profound changes to both the human and faunal

components. With these changes, history is somewhat reverting on itself and setting the stage

for southern citizens to fall back on two polarities of food sources: seasonal wild harvest and

consistently supplied cultured fishery products. The carbon footprint of these two sources will ultimately determine the consumer costs and acceptance.

HIST 26 Student/teacher essay contest winners: The best in the chemical history of food

Sherri C. Rukes1, Mary Virginia Orna2, [email protected]. (1) Libertyville High

School, Libertyville, Illinois, United States (2) Chemistry, The College of New Rochelle, New

Rochelle, New York, United States

Student/teacher teams were invited to contribute brief, but research-quality, essays on any

chemistry of food topic from an historical point of view. The winning essays are presented here along with a brief introduction of each of the winning teams.

HIST 27 Seeman, Padwa, Gupton and five membered heterocycles: How organic chemistry brought us together

John T. Gupton, [email protected]. Univ of Richmond, Univ of Rich, Virginia, United States

A chronological perspective will be presented on how the author came to be involved in

heterocyclic synthesis and how the interaction with crucial colleagues and friends influenced and

facilitated the development of new chemistry and professional development.

25

HIST 28 Two examples of serendipity in my scientific career

Eusebio Juaristi1,2, [email protected]. (1) Chemistry, Centro de Investigación y de Estudios Avanzados., Mexico City, Mexico (2) El Colegio Nacional, Mexico City, Mexico

In 1980, my first research project as an independent researcher in Mexico consisted in the

synthesis of a novel Wittig-Horner/Corey-Seebach reagent, 2-diphenylphosphinoyl-1,3-dithiane.

The original goal was to develop a novel method for the homologation of aldehydes and ketones.

While this idea turned out to be successful, the unexpected finding of a rather large difference in

the chemical shifts for the axial and equatorial hydrogens at C(4,6) in 2-diphenylphosphinoyl-1,3-

dithiane led to the discovery of an unusual anomeric effect involving the S-C-P segment. This

finding attracted considerable attention from both experimental and theoretical physical organic

chemists, and gave way to numerous studies, the publication of influential reviews, as well as the

preparation of a fundamental book on the anomeric effect. Interestingly, a “definite”

interpretation of the anomeric effect in S-C-P segment was reported by Juaristi & Notario only

two years ago.

In 1985 a sabbatical year spent in the group of D. Seebach at the ETH-Zurich, provided the

author with the capacity to master efficient asymmetric syntheses of α-amino acids. Upon his

return to Mexico, Juaristi had the idea to use similar strategies for the enantioselective

preparation of β-amino acids – an essentially virgin area of research at the time. Again, X-ray

diffraction crystallography exhibited an unexpected axial orientation of the t-butyl group of the

chiral pyrimidinone substrate, and this allowed the highly stereoselective addition of electrophilic

reagents, leading then to the enantioselective synthesis of α-substituted β-amino acids. This

strategy has had an extraordinary impact, so that whereas only 5 pertinent literature entries on

this subject were registered prior to 1980, and 11 for the period 1980-1990, more than 2000

have appeared during 1991-2017.Indeed, incorporation of β-amino acids in unnatural peptides

has been shown to elicit rather interesting and useful properties such as increased resistance to

enzymatic hydrolysis, which has proved to have enormous potential in the development of more

efficient pharmacological drugs. In this context, β-homo-tryptophan was prepared and exhibited

interesting biological activity when replacing its a analogue in hormone peptides present in the

mosquito that transmits dengue. Because the β-peptide is more resistant to enzymatic

hydrolysis, this affects the physiological diuresis/antidiuresis balance in the insect leading to

death by dehydration.

HIST 29 My journey from a never-heard land to ... to the land of opportunities

Mohammad Hajaligol, [email protected]. None, Leesburg, Virginia, United States

An autobiographical tour will review the steps in my life that transformed me from a village-boy

in Iran to an active and happy scientist in the land of opportunities. I will also discuss the role of friendship and scientific collaboration that I experienced around the world.

HIST 30 Thoughts on the relevance of history

Marjorie Caserio, [email protected]. Department of Chemistry and Biochemistry, University of California, La Jolla, California, United States

History is discussed primarily but not exclusively in the context of chemistry. Relevance is

discussed in the context of my own career as a chemist. History seemed irrelevant to me as a

26

student and junior level chemist, but, on reflection, it assumed greater importance as time

passed – a transition of which I was mostly unaware. The heart of the discussion in my

presentation centers on how and why the influence of history appears to grow as one’s career matures, yet collectively we seem to overlook it.

HIST 31 Publishing chemical history: Lessons learned

Eva E. E. Wille, [email protected]. Wiley-VCH, Weinheim, Germany

Publishing works on history of science, and on particular chemical history, is very important, as

we all can learn from history. Publishing history works falls into two equally important parts:

works by historians of science for their fellow colleagues is one and publishing history for lay

historians (i.e. for every scientist and students), for leisure reading or for their entertainment is

the other. Case studies collected over the period of more than three decades will be presented with an emphasis on publishing at Verlag Chemie/VCH/Wiley-VCH/Wiley.

HIST 32 Resilience: When life hands you a lemon, make lemonade

Maureen Rouhi, [email protected]. College of Sciences, Georgia Institute of Technology, Atlanta, Georgia, United States

My career path was set: Finish a Ph.D. and return to an academic career in the Philippines. What

I did not anticipate was marrying a foreigner and living in a country at war. I could not have

anticipated what happened next with the lemons my husband and I turned into lemonades.

HIST 33 History of and history in Angewandte Chemie

Peter K. Goelitz, [email protected]. Angewandte Chemie, Weinheim, Germany

Angewandte Chemie was founded in 1887 as a journal for industrial chemistry; basic science

played only a marginal role in the first half of its history. The transformation of the journal into a

world-class forum for all sub-disciplines of chemistry will be illuminated. The history of chemistry

had always a home in the journal and even more so today through the Essays section and regular contributions by Jeff Seeman.

HIST 34 Reflections on the relationships of error to discovery in chemistry

Carmen J. Giunta, [email protected]. Le Moyne Coll, Syracuse, New York, United States

Awards provide an opportunity for reflection as well as for celebration, as I have frequently been

reminded by the 2017 HIST Award winner, Jeff Seeman. In light of such advice, this presentation

will revisit one of the historical topics in chemistry which first engaged my interest, namely the

role of errors in the development of the science. The result of that earlier focus was less a serious

examination of the actual role of errors in the development of chemistry than a recognition that

27

errors could illustrate useful pedagogical and motivational precepts. A very preliminary survey

upon revisiting the topic of error suggests a great diversity of relationships to discovery: error

can be a spur to discovery, a hindrance to it, a subordinate companion of it, or a dominant companion disguised as a discovery. Examples of each kind will be examined.

HIST 35 Origins: God or no God, that is the question

Michael T. Bowers, [email protected]. Chemistry and Biochemistry, Univ of Californ Santa Barbara, Santa Barbara, California, United States

In this short talk we will focus on three origins: The Universe, Life, and Human Consciousness.

There are also three rules we will follow: 1) The Socratic Principle “to follow the truth where ever

it leads you”; 2) Ockham’s razor “that the best way forward is the simplest that deals with all of

the facts”; and finally 3) The advice my PhD mentor Bill Flygare gave way back when “Mike,

remember the molecule is always right”. We will approach these subjects primarily using

scientific data and methods but will also bring important philosophical and if time permits

theological perspectives to bear. All 3 of the “origins” involve unique, one-of-a-kind events to

initiate them followed by extraordinary evolutionary processes. We will comment both on the

unique events and their consequences and how all are totally central to our understanding of who

we are and perhaps involve implications of how we should respond. I will also note there is a

hierarchy involved with the physical universe and its emergent properties providing the base of a

pyramid; life forming the central part of the pyramid, dependent on but radically different than

the inanimate universe; and finally at the top of the pyramid, human consciousness, dependent

on the other two but transcendent in character extending beyond both the physical universe and

simple life.

Emergent Properties Pyramid

HIST 36 Chemical receptors and transduction events on the mammalian tongue

Sidney Simon, [email protected]. Department of Neurobiology, Duke University, Durham, North Carolina, United States

Being omnivores, humans eat a wide variety of foods. Historically, it was thought there are only

four primary tastes salt, acid, sweet and bitter and that sweet is perceived on the front of the

tongue and bitter on the back. I will show that both these ideas need to be revised. Foods are

composed of many types of chemicals including, ions , acids, saccharides, peptides alkaloids ,

fats, polymers , proteins as well as other organic and inorganic molecules that the body may

need or want. Placing such molecules on the tongue can produce salty (NaCl), sweet (sucrose) ,

bitter (quinine) and even burning (capsaicin) sensations. I will identify the receptors and

28

subsequent pathways in taste cells on the tongue including for the above mentioned chemicals.

This information will yield the coding logic at the periphery. An important event in my taste

research occurred when Dr. Jeff Seeman, who was then at Philip Morris, contacted me and asked

me if the bitter tasting alkaloid, nicotine, had a unique taste in the sense that it would be

different from other alkaloids, such as qunine. I told him I do not know how to do this since I was

a biophysicist who never did behavioral work nor any work in the brain. What was so memorable,

and life changing, is that Jeff said to me , “ We think you will be able to figure it out.”. Several years later we did and found that nicotine can be distinguished from quinine as I will describe.

HIST 37 Three evocative ideas: The Matthew effect, post mature contributions and the role of the role model

Harriet Zuckerman, [email protected]. Department of Sociology, Columbia University, New York, New York, United States

Originating in sociological research, the “Matthew Effect,” “ Post Mature Discoveries,” and “The

Role of the Role Model,” shed light successively on the allocation of credit in science, the

somewhat disorderly development of scientific knowledge, and the down sides of being chosen as a role model in science and other domains.

HIST 38 Best of all possible worlds

Robert Anderson, [email protected]. Chemical Heritage Foundation, Philadelphia, Pennsylvania, United States

Is life a series of accidents, or is it a succession of carefully laid plans? To me, it has lain in-

between these two extremes, but closer to the former than the latter. Chemistry always

fascinated me - I think because of its taxonomic qualities. But then so did history. In England,

the decision to specialize in the arts or sciences had to be made at the age of 14. If the sciences

were chosen, then one could continue developing one's knowledge of the humanities. The

converse was unlikely. I was determined to read chemistry at Oxford University, where the

humanities flourish in England as nowhere else. So I undertook my required chemistry courses

but slipped off to Nikolaus Pevsner's lectures on architectural history, A J P Taylor's series on

Lord Beaverbrook, and Edmund Blunden's poetry talks. Perhaps more significant was my

becoming a friend of the Ashmolean Museum. I stayed on in Oxford to carry out research for a

D.Phil. in neutron scattering. All this came to an end in 1970: I wanted to interact with a wider

circle than chemists alone, so I went to the Royal Scottish Museum in Edinburgh as curator of the

history of chemistry and physics. That there was such a job was Accident Number 1. The second

was a vacancy in the Chemistry Department of the Science Museum in London a few years later.

Number 3 was that the headship of my first museum became available and I became Director of

the National Museums of Scotland. Number 4 was the Directorship of the British Museum, until

2002. Chemistry never slipped out of my life, except that my fascination with the subject moved

backwards to the 18th century. I published whenever I could find an odd moment to write. After

leaving the British Museum I had a dream year at the Institute for Advanced Study at Princeton

after which I went to Cambridge University as the fellow of a college. Shortly after I was made a

board member of the Chemical Heritage Foundation and I now serve as its President. Other

aspects of cultural life remain equally important. I cannot imagine being content without art and

classical music. This abstract is being written at the close of a conference in Paris on science

museums and scientific objects. While in Paris, I slipped down to visit the Chateau of

29

Fontainebleau for the first time. And just after I returned to Philadelphia, I was at the Kimmel

Center listening to Haydn's Seven Last Words. For me, the Arts and Sciences are united in a very

satisfactory way.

HIST 39 "Go for it": Words of wisdom from my fathers

Lauren M. Shea, [email protected]. Education, American University, Bethesda, Maryland,

United States

In pivotal moments in one's life, often times the path of least resistance can take you far. Other

times, making that big leap in the opposite direction can take you further and teach you more.

When your goals in life are to educate others, sometimes conversing with others is the best way

to make important decisions. Dr. Jeff Seeman was one of those others in my life. This

presentation will discuss how my life's educational goals were influenced by the support of those

around me. We will explore an overview of my practical and empirical work regarding effective

methodologies for developing the next generation of scientists and science educators.

Additionally, the presentation will model impactful examples of my work that can be used for

deeper science learning and meaningful academic communication in universities and industrial settings.

HIST 40 FDA history, drug inspection and compliance overview

Brooke Higgins, [email protected]. Food and Drug Administration, Richmond, Virginia, United States

Products regulated by the Food and Drug Administration account for approximately 20-25% of all

U.S. consumer spending. This lecture will focus on the history of the pharmaceutical regulations

and provide insight into the inspection and compliance work currently performed by the agency.

Examples will be provided based on the speaker's 15-year employment with the FDA, both as a pharmaceutical investigator and a compliance officer.

HIST 41 Emergence of molecular reaction dynamics

Dudley R. Herschbach, [email protected]. Chemistry and Chemical Biology, Harvard University, Cambridge, Massachusetts, United States

Nowadays, chemical kinetics of gas phase and gas-surface reactions has access to intimate

molecular dynamics of individual reactive collisions. Here I’ll revisit some episodes from its

infancy. About 60 years ago, only a few chemists were seeking means to observe molecular

reaction dynamics. Some somber chemists dismissed the prospect of “single-collision” chemistry

as “a lunatic fringe.” My entry to the fringe came as a first-year graduate student in 1955 at

Stanford, in a physics course. The professor, Walter Meyerhof, made a brief digression to

mention Otto Stern’s 1919 experiment using a molecular beam to test the Maxwell-Boltzmann

velocity distribution. For me, it was love at first sight. Crossed beams ought to be an unequivocal

way to confirm a reaction is elementary and to study directly its dynamical properties. My

mentor, Harold Johnston, had imbued me with his passion for kinetics and a sense for historical

imperative. From him I’d learned about the reactions of alkali atoms with halogen containing

30

molecules, explored in the 1920s by Michael Polanyi, who found some had unusually high yields

of alkali halide products. In 1960, I was an assistant professor at Berkeley, with two students.

We carried out crossed beam experiments with simple apparatus adequate for facile alkali

reactions. The sought after dynamical bounty was attained, the first observation of angular and

velocity distributions of reaction products. Moreover, we had the pleasure of showing the results

to Otto Stern (1888-1969) himself; he had retired to Berkeley. Soon after, Michael Polanyi

(1891-1976) also visited Berkeley. Much more was to come. Historical destiny is intriguing. E.g.,

Meyerhof had to emigrate in the Nazi era. Otherwise, very likely he would not have been in a Stanford classroom, captivating a susceptible student.

HIST 42 History of the American chemical laboratory manual

William P. Palmer, [email protected]. Faculty of Education (SMEC), Curtin University of Technology, Brighton, Victoria, Australia

It may not be realised in the United States that the American chemical laboratory manual is

unique to the United States, certainly within the English-speaking world. This study will attempt

to discover the chemical laboratory manual’s history. Manuals are of two types (i) those in which

students write the answers to questions posed in the manual in the manual itself. (ii) those in

which students write the answers to questions posed in the manual in a separate blank notebook.

Students from all countries record their practical work as this is seen as part of the training

necessary to become a scientist. The usage of a printed text in which students record their

results can only be found in America. It is the usage of this form of manual and its varieties that will be the focus of this study.

HIST 43 Victor Grignard (1871-1935) and Henry Gilman (1893-1986): Pioneers in

organometallic chemistry

Rachael K. Dieringer, [email protected], Hunter K. North, [email protected], David E. Lewis. Chemistry Department, UW-Eau Claire, Eau Claire, Wisconsin, United States

The earliest organometallic compounds used in organic synthesis were the dialkylzinc and

alkylzinc halide reagents discovered by Frankland at Marburg, and developed by the Russians

Butlerov, Zaitsev and Vagner, at Kazan. In 1900, Victor Grignard discovered that using

magnesium in place of the zinc provided a much less pyrophoric, easier to use organometallic

nucleophile. Within ten years, the Grignard reagent had completely supplanted the earlier

organozinc reagents, and assured Grignard of his Nobel Prize. American chemist Henry Gilman at

Iowa State University expanded the reagents available to organic chemists by exploring the

formation and reactivity of simple alkylmetal derivatives of most of the transition metals. In this

presentation, the men behind the chemistry will be discussed, along with some of their early work.

31

HIST 44 Wolff-Kishner reduction: Biography, discovery and development

David E. Lewis, [email protected]. Chemistry Department, UW-Eau Claire, Eau Claire, Wisconsin, United States

In a series of papers published between 1911 and 1914 in the Zhurnal Russkogo Fiziko-

Khimicheskogo Obshchestva [Jornal of the Russian Physical-Chemical Society] by Russian

chemist Nikolai Matveevich Kizhner (1867-1935), Professor of Organic Chemistry at the Tomsk

Technological Institute in Siberia, described the base-promoted decomposition of aldehyde and

ketone hydrazones with potassium hydroxide at high temperature. In 1912, a year after

Kizhner's first report, German chemist Ludwig Wolff (1857-1919), Extraordinary Professor and

head of the Department of of Analytical and Inorganic Chemistry at the Chemical Institute of the

University of Jena, described a similar base-promoted decomposition of semicarbazones by

heating with aqueous or alcoholic base in a single paper. A brief biographical view of the two

protagonists, and how they resolved the priority dispute for discovery of the reaction will be

presented, along with a brief discussion of the development of the modern versions of the reaction.

HIST 45 Development of Butlerov's Structural Theory, 1859-1862

Carly S. Goedhart, [email protected], Dylan R. Rothbauer, [email protected], Sergei N.

Raspel, David E. Lewis. Chemistry Department, UW-Eau Claire, Eau Claire, Wisconsin, United

States

In 1859, Aleksandr Mikhailovich Butlerov (1828-1886) had just returned to Kazan after spending

a komandirivka (official study leave) in the laboratory of Charles Adolphe Wurtz (1817-1884) in

Paris, where he became a member of the fledgling Société chimique de Paris. At this time, the

young Scotsman, Archibald Scott Couper (1831-1892) had just developed his theory of chemical

structure, so Butlerov was exposed to this new way of thinking at its inception. In 1859, he wrote

a paper in which he declared that Couper had gone too far, and exceeded what the experimental

facts would allow. However, his opinions changed after his return to Russia, and by 1862 he was

a champion of structural theory, taking up Couper's mantle. The gradual shift of his opinion is

revealed in two sets of lecture notes from his class in organic chemistry taken in 1859 by student

Vladimir Markovnikov, and in 1862 by student Ivan Bukhvostov. Taken together with Butlerov's

"Speyer paper" in the Zeitschrift für Chemie in 1861, these documents provide insights into

Butlerov's transition from skeptic to protagonist. Our progress in transcribing and translating these notes will be discussed.

HIST 46 Mining of elements versus discovery, analysis, and separation of elements

Christine Hahn, [email protected]. Department of Chemistry, Texas AM University Kingsville, Kingsville, Texas, United States

The Mansfelder copper mines are unique in Europe regarding the diversity of elements contained

in the copper ores. From historical point of view it is interesting to compare the dates of

discovery and begin of actual mining of a certain element. The promptness or delay of recovery

of elements upon its discovery depended on the availability of analytical methods and separation

techniques which have been developed over the time in Inorganic-Analytical Institutes of

Universities of Halle, Leipzig, Berlin, Göttingen, and other universities located near the Mansfeld

32

area. In the 18th centuries several mining schools were established in Germany, which impacted

the progress of smelting and purification technologies of metals. The foundation of the Fresenius

Institute in 1848 has been a milestone in the history of analytical chemistry and played a leading role in qualitative and quantitative analysis of elements occurring in nature.

HIST 47 August Michaelis: A pioneer of phosphorus chemistry

Detlef Selent, [email protected]. Leibniz Institute of Catalysis, Rostock, Germany

After holding the first professorship in organic chemistry at the Technische Hochschule in Aachen

from 1880 until 1890, August Michaelis changed to the University of Rostock to hold the chair of

chemistry and pharmacy at the faculty of philosophy. In Rostock, he continued his research in

phosphorus chemistry. Michaelis has conducted investigations on several classes of P-

compounds, such as triarylphosphines and the respective N- and As analogues, mixed alkyl aryl

phosphine oxides, primary phosphines, phosphorus halogen compounds, phosphorus trisamides,

phosphonium salts, and others. He found that the reaction of phosphorus acid esters with alkyl

halogenides does not lead to stable phosphonium compounds but to alkyl phosphinic acid

derivatives after aqueous workup. A. E. Arbuzov showed this reaction, which is now known as the

Michaelis Arbuzov rearrangement, to be a more general one. Michaelis also provided proof for the

formula HP(O)(OH)2 of phosphorous acid, thus explaining why the respective triesters are not

available from the acid directly but from P(III) halogen compounds. For a collection of his

compounds, he received a gold medal at the world exhibition in St. Louis, Louisiana, in 1904.

Michaelis also served the University of Rostock as a president. He has been a dedicated chemistry

teacher. From the 1870's on he delt with revising and publishing issues of the Graham-Ottos

Lehrbuch der Anorganischen Chemie (F. Vieweg und Sohn, Braunschweig). Michaelis received the

Cothenius medal from the Leopoldinisch-Carolinische Akademie der Naturforscher (Leopoldina)

and was nominated Geheimer Hofrat in 1913 because of his merits. Michaelis died in 1916. In

1941, Paul Walden named him ‘a big one’ of classical chemistry. Nowadays, phosphorus

chemistry plays an important role at the University of Rostock. With regard to Michaelis,

phosphaaza compounds which still offer interesting challenges and surprises are investigated at

the Department of Chemistry. At the Leibniz-Institute of Catalysis, P(III) and P(V) compounds

are synthesized and tested with respect to their applicability for catalytic transformations. The

Leibniz Science Campus ‘Phosphorus Research’ has been established, which is dedicated to the

facets of phosphorus utilization in daily life. It is worth mentioning, that the famous

triphenylphosphine is still prepared today from chlorobenzene, phosphorus trichloride and sodium, a synthetic procedure developed by Michaelis more than 100 years ago.

HIST 48 Markovnikov on isomerism in organic chemistry

David E. Lewis, [email protected]. Chemistry Department, UW-Eau Claire, Eau Claire, Wisconsin, United States

Vladimir Vasil'evich Markovnikov (1838-1904) was one of only a few Russian organic chemists of

the 19th century who achieved international stature during their lives. As a student in economics

at Kazan University, Markovnikov studied organic chemistry under the great Aleksandr

Mikhailovich Butlerov (1828-1886) at the time when Butlerov was beginning to develop his

version of the structural theory of organic chemistry. The reason for Markovnikov being in a

chemistry class at all stems from the decision by Russia to adopt the German cameral system;

this meant that all students intending a career in government service were required to take two

33

years of chemistry (we could certainly use that requirement these days!). Markovnikov's

dissertation for the Magistr Khimii degree, "Ob izomerii organicheskikh soedinenii [Concerning the

isomerism of organic compounds]," was submitted to Kazan University in 1865. In it,

Markovnikov discusses the concept of isomerism in organic chemistry; the discussion reveals the

incredibly logical mind of its author, and reveals Markovnikov as a genuine genius. This

dissertation, which has never appeared in complete form in any language but Russian, contains

ideas that were decades ahead of their time.

Markovnikov Butlerov

HIST 49 Mutual influence of atoms in chemical compounds—Markovnikov's Rule

David E. Lewis, [email protected]. Chemistry Department, UW-Eau Claire, Eau Claire,

Wisconsin, United States

In 1869, Vladimir Vasil'evich Markovnikov (1838-1904) submitted his dissertation for the degree

of Doktor Khimii to Kazan University. This dissertation, whose title appears above, took the

unprecedented step of using structural theory as developed by Markovnikov's mentor, Aleksandr

Mikhailovich Butlerov (1828-1886) to predict not only the structures of compounds, but also the

regiochemistry of their reactions. In other words, Markovnikov took a theory that had up to then

been concerned with static molecular structure, and made it applicable to dynamic organic

reactions. During this work, Markovnikov found strong evidence that the alkene unsaturation was

due to "free affinities" on adjacent carbon atoms. He also formulated his rule for addition to

alkenes. This dissertation has never appeared in full in any language but Russian, so, as with

his Magistr Khimii dissertation, many of the pioneering conclusions remained unknown until their rediscovery decades later.

division of the history of chemistryacshist.scs.illinois.edu/meetings/2018-spring/hist 2018... ·...

Documents