dr. elena polyakova, ceo tsx-v:ggg otcqb: gphbf
TRANSCRIPT
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TSX-V:GGG
OTCQB: GPHBF
Dr. Elena Polyakova, CEO
Advanced graphene composites: 3D
printing and beyond
TSX-V:GGG
OTCQB: GPHBF
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TSX-V:GGG
OTCQB: GPHBF
Forward Looking Statements
2
Information set forth in this presentation may contain forward-looking statements. Forward-looking statements
are statements that relate to future, not past, events. In this context, forward-looking statements often address
a company's expected future business and financial performance, and often contain words such as
"anticipate", "believe", "plan", "estimate", "expect", and "intend", statements that an action or event "may",
"might", "could", "should", or "will" be taken or occur, or other similar expressions. By their nature, forward-
looking statements involve known and unknown risks, uncertainties and other factors which may cause our
actual results, performance or achievements, or other future events, to be materially different from any future
results, performance or achievements expressed or implied by such forward-looking statements. Such factors
include, among others, the following risks: the risks associated with outstanding litigation, if any; risks
associated with adoption by industries of graphene-based products; additive manufacturing gaining market
acceptance as an alternative for industrial manufacturing which will require acceptance of such factors as
quality, price and speed at which products can be created; health and environmental factors affecting adoption
of these technologies; reliance on key personnel; the potential for conflicts of interest among certain officers,
directors or promoters with certain other projects; the absence of dividends; competition; dilution; the volatility
of our common share price and volume; and tax consequences to U.S. Shareholders. Forward-looking
statements are made based on management's beliefs, estimates and opinions on the date that statements are
made and the Company undertakes no obligation to update forward-looking statements if these beliefs,
estimates and opinions or other circumstances should change. Investors are cautioned against attributing
undue certainty to forward-looking statements.
The information in this presentation is historical in nature, and is current only to the date indicated in the
particular presentation. This information may no longer be accurate and therefore you should not rely on the
information contained in this presentation. To the extent permitted by law, Graphene 3D Lab Inc. and its
employees, agents and consultants exclude all liability for any loss or damage arising from the use of, or
reliance on, any such information, whether or not caused by any negligent act or omission
Disclaimer
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TSX-V:GGG
OTCQB: GPHBF
Introduction
3
The Company is a recognized global
leader in the commercialization of
graphene nanomaterials.
Renowned scientific team
specializing in enhanced graphene
applications and manufacturing
Well-equipped R&D, QC, and
production facility in Calverton, NY
The Company owns a strong IP
portfolio of 6 patent applications
The Company currently sells more
graphene specialty products than
anyone else in the world to 12000
customers worldwide
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TSX-V:GGG
OTCQB: GPHBF
Business Divisions
4
Port
folio
of
Ad
van
ced
M
ater
ials
R&D Materials
Materials for 3D Printing
Industrial graphene-enhanced composites
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TSX-V:GGG
OTCQB: GPHBF
Our Current Customers
5
Established customer base:
nearly 12,000 clients
worldwide including; NASA,
Ford Motor Co., GE., Apple,
Xerox, Samsung, MIT,
Harvard, Honda, NIST, HP,
Xerox, Cambridge, Oxford,
US Navy, US Army, Caltech,
Stanford University and
almost every Fortune 500
tech company
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TSX-V:GGG
OTCQB: GPHBF
R&D Materials
6
Highlights
The world largest collection of graphene
products
In operation since 2010
Products include:
Graphene wafers
Graphene Oxide
Graphene Nanopowders
Conductive Inks and Sheets
TEM Grids
Flexible graphene coatings
Distributed under Graphene Supermarket®
brand, www.graphene-suprmarket.com
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TSX-V:GGG
OTCQB: GPHBF
Materials for 3D Printing
7
Materials portfolio include:
Magnetic
Flexible nylon
Conductive PLA
Flexible/Conductive TPU
Vibration Damping Graphene/Carbon
Fiber HIPS
Distributed under BlackMagic3D®
brand, www.backmagic3d.com
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TSX-V:GGG
OTCQB: GPHBF
8
Production of Industrial Graphene Composites
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TSX-V:GGG
OTCQB: GPHBF
9
IP PROTECTION OF ALL TECHNOLOGICAL STEPS
Production of Industrial Graphene
Natural Graphite
Graphene
Composite Materials
High-performance Products
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TSX-V:GGG
OTCQB: GPHBF
Development Timeline
10
$$$$$$ $
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TSX-V:GGG
OTCQB: GPHBF
Graphene Composites
11
Only a small percentage of graphene is needed to improve a
polymer
Conduct electricity Conduct heat
Green Material Mechanically strong
No metals
× 3 ×106-1012
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TSX-V:GGG
OTCQB: GPHBF
Preparation of
Nanocomposites
12
Mixing in Solution In-situ polymerization Melt mixing
Dispersion
Physical Chemical
• Sonication • Cavitation • Thermal or microwave
expansion
• Oxidation/reduction • Functionalization • Intercalation • Use of surfactant
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TSX-V:GGG
OTCQB: GPHBF
Preparation of
Nanocomposites
13
Mixing in Solution: difficult to scale Melt mixing: Scalable!
Image Credit http://image2.cccme.org.cn/i_supply/2010-05-28/20100528125546000272493.jpg
Industrial Compounder
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Graphene 3D Lab Inc. TSX-V:GGG
OTCQB: GPHBF
G6-ImpactTM: Graphene Composites for Vibration
Damping
Mechanical Properties of Polymer Composites
14
Material with no
competition
Solution to all our
problems
Miracle Material
Focus on PERFORMANCE!
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Graphene 3D Lab Inc. TSX-V:GGG
OTCQB: GPHBF
G6-ImpactTM: Graphene Composites for Vibration
Damping
Mechanical Properties of Polymer Composites
15
Stiffness
Strength
Toughness
Price Weight
Thermal Stability
Functional Properties
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Graphene 3D Lab Inc. TSX-V:GGG
OTCQB: GPHBF
G6-ImpactTM: Graphene Composites for Vibration
Damping
16
• HIPS/Graphene(<1%)/Carbon
Fiber(20%) composite G6-
ImpactTM introduced in Oct 2106
• G6-ImpactTM is semi-rigid
material with outstanding
vibration damping and shock
absorbing properties
• While 3D filaments can be used
to create models or prototypes,
the same material can be used
for mass manufacturing using
thermoforming or injection
molding.
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Graphene 3D Lab Inc. TSX-V:GGG
OTCQB: GPHBF
G6-ImpactTM: Graphene Composites for Vibration
Damping
Introduction into Tensile Testing
17
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Graphene 3D Lab Inc. TSX-V:GGG
OTCQB: GPHBF
G6-ImpactTM: Graphene Composites for Vibration
Damping
Introduction into Dynamic Mechanical Analysis (DMA)
18
Parameter Units ASTM/ Method
HIPS Resin (matrix)
G6-Impact Improvement,
%
Storage
Modulus GPa (psi) D 638 1.3 (191,000) 5.7 (836,000) 337
Tensile
strength MPa (psi) D 638 25.9 (3,770) 34 (4,940) 31
Izod impact
strength,
(notched)
ft-lbs/in (J/m) D 256 0.8 (42.9) 1.61 (85.9) 101
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Graphene 3D Lab Inc. TSX-V:GGG
OTCQB: GPHBF
Measurements of the viscoelastic properties of the
polymer in the torsion bar oscillation experiment
19
Stra
in, γ
(t)
Stre
ss, τ
(t)
Time, t Torsion bar oscillation experiment
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Graphene 3D Lab Inc. TSX-V:GGG
OTCQB: GPHBF
DMA Analysis: a Typical Polymer Matrix
20
http://polymerinnovationblog.com/
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Graphene 3D Lab Inc. TSX-V:GGG
OTCQB: GPHBF
G6-ImpactTM: Graphene Thermoplastic Composites for
Vibration Damping: Dynamic Mechanical Analysis (DMA)
21
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Graphene 3D Lab Inc. TSX-V:GGG
OTCQB: GPHBF
G6-ImpactTM: Graphene Thermoplastic Composites for
Vibration Damping: Dynamic Mechanical Analysis (DMA)
22
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Graphene 3D Lab Inc. TSX-V:GGG
OTCQB: GPHBF
G6-ImpactTM: Graphene Thermoplastic Composites for
Vibration Damping: Dynamic Mechanical Analysis (DMA)
23
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Graphene 3D Lab Inc. TSX-V:GGG
OTCQB: GPHBF
G6-ImpactTM: Graphene Composites for Vibration
Damping
24
Targeted towards
engineers and
professional 3D
printer users
working in
automotive, optics
construction,
robotics, or
aerospace industry.
Application example: 3D Printed vibration
damping support for the fiber laser platform
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Graphene 3D Lab Inc. TSX-V:GGG
OTCQB: GPHBF
Conductive Graphene Polymers
25
Low percolation threshold (0.5%)
High in-plane conductivity
Chemical inertness
Graphene platelets,
when added to a
polymer matrix, form
a conductive
network
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TSX-V:GGG
OTCQB: GPHBF
26
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Graphene 3D Lab Inc. TSX-V:GGG
OTCQB: GPHBF
Conductivity of Plastics
27
0.5Ωxcm = 200 S/m = 0.005 Ωxm= 2 S/cm
Our materials
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Graphene 3D Lab Inc. TSX-V:GGG
OTCQB: GPHBF
Electrically Conductive Plastics
28
GGG 3D printing materials
S/m
1
10
100
200
CNTs
0.1
0.5Ωxcm = 200 S/m = 0.005 Ωxm= 2 S/cm
Macromolecules, 2015, 48 (3), pp 687–693
Pristine Graphene Foams
RGO
GPNs Carbon
Black
1000 CVD foams GGG composites
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Graphene 3D Lab Inc. TSX-V:GGG
OTCQB: GPHBF
Conductive Graphene Filament
29
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Graphene 3D Lab Inc. TSX-V:GGG
OTCQB: GPHBF
Applications of Conductive Filaments
30
• Three dimensional
circuitry
• Sensors
• Electromagnetic
Shielding
• Antennas
• Electrodes
Conductive FDM filaments
allows combining insulating
and conductive parts in 3D-
printed object
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Graphene 3D Lab Inc. TSX-V:GGG
OTCQB: GPHBF 31
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Graphene 3D Lab Inc. TSX-V:GGG
OTCQB: GPHBF
Conductivity of Plastics
32
Vo
lum
e R
esis
tivi
ty, Ω
xcm
Insulator 1012-1016
Antistatic 109-1012
Dissipative 106-109
Conductive 100-106
Graphene Conductive Filament below 1 Ωxcm
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TSX-V:GGG
OTCQB: GPHBF
Contact Information
33
Website: www.graphene3Dlab.com
Phone: (631) 405-5116
Email: [email protected]
Graphene 3D Lab
4603 Middle Country Rd Suite 111
Calverton NY 11933
R&D Materials Materials for 3D
Printing
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TSX-V:GGG
OTCQB: GPHBF
Dr. Elena Polyakova, CEO
Thank you for your attention!