Graphene + Carbon Nanotube Hybrid Materials

Graphene and carbon nanotube hybrid materials combine the exceptional properties of both nanostructures — graphene’s high surface area and CNT’s superior aspect ratio — to create a synergistic conductive network. These hybrids deliver outstanding electrical, mechanical, and thermal performance, making them ideal for energy storage, composites, and conductive coatings.

Carbon + Other Nanomaterials Composites (Carbon–Metal, Carbon–Oxide, etc.)

Carbon-based composites integrating metals, metal oxides, or other nanomaterials exhibit multifunctional performance with enhanced catalytic, electrical, or magnetic properties. Designed for energy devices, catalysis, and environmental systems, these advanced composites enable superior efficiency and long-term stability under demanding conditions.

Multi-Scale Carbon Material Assemblies (CNT–Graphene Layered Structures)

Multi-scale carbon material assemblies integrate different forms of carbon — such as layered graphene and entangled CNT networks — to create hierarchical structures with tunable conductivity and strength. These materials provide excellent performance in structural composites, thermal interfaces, and multifunctional energy systems.