GRAPHENE

THE FUTURE OF GREEN CHEMISTRY

Advanced Materials to support a changing energy landscape.

In the purest sense, graphene is a one-atom-thick sheet of carbon atoms arranged in a hexagonal lattice. Graphene and other advanced carbon materials can come in a variety of different shapes and sizes, with all forms adding incredible benefits to various applications.

It is the strongest, thinnest, and most conductive material known to science. Graphene has a wide range of potential applications in electronics, energy, infrastructure, and other industries.

THE MIRACLE PARTICLE

As a few layers of carbon atoms, graphene is known to hold various transformative physical and electrical properties. Graphene is used as an additive in various industries, including electronics, medical, industrial and more. For end-use scenarios, graphene holds value for enhancing products that include concrete, lubricants, energy storage and fuels to improve material performance. Historically, high production costs, ability to scale and low purity have been the constraint to graphene’s global growth and adoption.

200x stronger than steel

6x lighter than steel

100x higher conductivity than computer silicon

70% more conductive than copper

Structural improvements

Flexible and Strong

Thermally efficient

Superior energy storage capabilities

CARBONHEX™ GRAPHENE

HEXEGEN’S UNIQUE PRODUCTION PROCESS RESULTS IN A HIGH-PURITY, CLEAN CARBON-BASED NANOMATERIAL CREATING THE NEXT EVOLUTION IN SCALABLE GRAPHENE PRODUCTION.

Hexegen’s proprietary process simplifies production and creates a cost-effective alternative to graphite-derived graphene. Carbon HEX graphene is designed to efficiently process CO2, carbon-based feedstocks, and other hydrocarbon gases, such as methane, into a high-purity nanomaterial within minutes using very little energy and emitting near-zero emissions.

With enhanced properties and a cutting-edge scalable doping capabilities, Carbon HEX solution is ideal for energy and material applications which have been shown to provide enhanced improvements when applied to certain use cases compared to traditional graphene.

KEY FEATURES

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CARBONHEX™ COMPARISON CHART

	Structure	Strength	Production	Conductivity	Scalable	Cost	Carbon Purity
CarbonHex®	3-D Platelets & Microspheres	High	Carbon-Neutral	High	Yes	Low	99%
Graphene	Few-Layer	High	Carbon-Intensive	Semi	Yes	High	97-99%
Graphite	Multi-dimensional	Low	Carbon-Intensive	Semi	Yes	Low	80-85%

OUR CARBONHEX™ SOLUTION HAS THE POTENTIAL TO REVOLUTIONIZE THE WAY WE DESIGN AND MANUFACTURE PRODUCTS

CarbonHEX
Alpha Tech Sheet

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Beta Tech Sheet

INFINITE POSSIBILITIES FOR A FINITE WORLD

Hexegen’s advanced materials serve a wide array of industries and various end uses. See how many applications our technologies can serve.

3D-Printing

Adding advanced materials to the 3D printing process, can significantly enhance the mechanical strength, flexibility, and conductivity of printed objects. exceptional tensile strength of graphene reinforces the material, making it suitable for applications where structural integrity is critical.

Carbon Fibers

Carbon fiber has a strength-to-weight ratio that is unparalleled when compared to many other materials. The addition of carbon nano materials to the matrix can provide additional benefits in terms of strength, fatigue resistance, rigidity, along with chemical and thermal protection.

Refining

Advanced materials can play a significant role in refinery and pipeline operations. From coatings to DRA (drag-reducing agents) materials, applications are present across the value chain.

Medical

Advanced materials have applications across the medical field. From biosensors and drug delivery systems, to the material’s inherent antibacterial characteristics, Doctors and researches remain very focused on how advanced materials can push forward modern medicine.

Aerospace

Applications in aerospace are anchored in several key areas. Light-weighting of structural components, enhanced thermal management, coatings, and flexible electronics are at the top of the conversation, but these application areas are just the tip of the iceberg.

Defense

Advanced material use in the defense space is of incredible focus, especially if the materials are domestically produced. Areas of focus include lightweight armor, stealth technology, smart textiles, and advanced energy storage systems.

Fuel Additive

An area with recent focus utilizing advanced materials is fuel additives and synthetic fuels. As an additive, improved fuel atomization is experienced, driving more efficient combustion, while a whole additional world can be unlocked with the development of synthetic fuels.

Conductive Inks

Advanced materials can unlock the next level of conductive inks. These inks are currently used in printable electronics, flexible circuits, wearable technology, and touchable displays.

Most people don’t realize how much they interact with conductive inks every day!

Electronics

The next horizon of electronic technology requires the support of modern advanced materials. These materials will play a crucial role in developing the next generation of flexible electronics, sensors, semiconductors, and energy storage devices.

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HOUSTON, TX 85284 USA

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