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ADVANCED MATERIAL TECHNOLOGY
Together.
Better.
Introducing the next generation of Graphene technology.
Our story.
The Future of Materials
and Energy
SYMIUS was founded in 2022 as a combination of commercially ready and prototype technologies that will have a profound impact in the materials industry and energy.
As the world continuously demands advancement in materials to improve the human condition, we made it our mission to create a lighter, stronger, more durable, cost effective and environmentally sustainable Graphene Polymer Composites with endless possibilities.
A New Age Material:
Graphene Polymer Composite
A New Age Material:
Graphene Polymer Composite
Dr. Thomas Nosker and team developed a unique, patented material produced by a proprietary methodology that exfoliates common graphite with polymers resulting in graphene polymer composites.
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Increases material properties of standard polymers by orders of magnitude
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Cost effective compared to materials with similar properties
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Makes use of existing equipment with minor modifications; very scalable
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Works with every thermoplastic tested (>40, including PET, PEEK, nylon, etc.)
Our Performance
Enhancing polymers with graphene via our methodology improves properties by orders of magnitude. SYMIUS has near infinite applicability, but initially we will target selected verticals that have significant footprints and accelerated path to scale.
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Plastics
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Cement
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Defense
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Batteries
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Medical Devices
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Aerospace
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Solar Energy
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Auto
Industry Verticals
Safety & Footprint
Polymers made with SYMIUS technology are lighter, more durable, stronger and recyclable. Our products create less waste and lower environmental footprint from manufacturing. In addition, lighter packaging and components materials means reduced fuel costs to transport goods, lower CO2 emissions.
SYMIUS is dedicated to building our own plastics recycling center for the re-purposing of our materials and batteries.
Interior
A New Age Material:
Graphene Polymer Composite
A New Age Material:
Graphene Polymer Composite
5-Star Overall Performance Rating
Effectiveness
Dispersion & Homogeneity
Flexibility
Comparable
Thermal & Radiation Protection
Product Specs
Lead Times
PSI
Full strength in 7 days vs 30 for faster construction and lower lead times
10% increase in product PSI
Density
Stopping Power
15% reduction in density, achieves same results with less concrete, asphalt or cement
2x stopping power of Kevlar with 66% reduction in weight
Tensile Strength
Thermal Shielding
+80% with fewer cracks, 2-3x longer lasting cement, asphalt or concrete
Blocks more than 99.998% of the high-frequency EM radiation
PET Strength
Radiation Shielding
+459% bottles, packaging, resins, textiles
Shields more than 99.99% of the electromagnetic energy in the sub-THz range
PSU Strength
+630% water filters, beverage processing, food storage
PEEK Strength
+557% bearings, pumps, valves, electronic parts, medicine
Performance stats for various plastic, cement, thermal and bullet-proof protection applications.
Light Weighting
Light graphene polymers can replace heavier materials and provide the same durability and strength, for lower transport costs and better performance.
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Plastics
Compared to PEEK, graphene-enhanced PET (G-PET) has higher impact strength and better tensile modulus at a competitive cost.
Aerospace
Graphene polymers are lighter and more aerodynamic, improving flight and economics for planes, drones and missiles.
Energy
Batteries made with graphene polymers will last longer, charge faster and support more charging cycles, improving performance throughout.
Helmets
Graphene polymer helmets better distribute impact force and are lighter than those made with other materials.
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Medical
Compared to PEEK, graphene-enhanced PET (G-PET) has higher impact strength and better tensile modulus at a competitive cost.