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What we do
Our vision and target
탄소전극
Carbon electrodes
나노물성
Nano-properties
탄소복합체
Carbon composites
Enhancing Device Performance Using Carbon Nanomaterials as Electrodes
Research on the Unique Properties of Nanomaterials
Fabrication of Carbon Composites for Bulletproof Vests and Carbon Supports
HOW we do
Our vision and target
Carbon Nanotube
#Property: High Conductivity
Carbon Nanotubes are carbon allotropes composed of carbon atoms bonded in a hexagonal arrangement, forming a nanomaterial. They possess exceptional electrical, mechanical, and optical properties, making them widely utilized as advanced materials across various fields.
Graphene
#Property: Transparency
Graphene is a two-dimensional carbon allotrope composed of carbon atoms arranged in a hexagonal structure with a thickness of just one atom. Monolayer graphene has a thickness of 0.3 nm, making it an extremely thin material that exhibits exceptional electrical and thermal conductivity as well as high optical transparency.
Carbon Nanotube Film
TRANSPARENT
CONDUCTIVE
Spinning by Van der Waals Forces Between Atoms Under Specific Conditions
From Vertically Aligned Carbon Nanotubes
"Spun Carbon Nanotube Films"
From Spun Carbon Nanotube Films
"Woven Carbon Nanotube Fibers"
Carbon Nanotube Fibers
FIBER
CONDUCTIVE
Carbon nanofibers can be produced by applying
controlled torque and tension to carbon nanotube films.
These next-generation materials exhibit one-dimensional, fiber-like characteristics,
making them highly versatile for applications across a wide range of fields.
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