Enhancing Battery Efficiency with CNTs

Copper wiring and traditional battery components are heavy and less efficient, limiting battery performance and lifespan.

Batteries and lightweight materials.

CNTs are pushing the boundaries of what is possible in battery technologies and lightweight materials. CNTs improve conductivity, energy density, and battery stability, leading to longer-lasting, faster charging, and more efficient energy storage solutions. Meanwhile, in lightweight materials, CNTs enable the development of composites with superior mechanical properties ideal for aerospace, automotive, and consumer applications. Though challenges such as scalability and cost remain, ongoing research and development are bringing CNT-based technologies closer to mainstream use.

Replace copper in wiring and connectivity.

     Carbon Nanotubes (CNTs) have emerged as a promising alternative to copper for wiring in connectivity applications due to their unique properties and superior electrical conductivity (CNTs have the potential to outperform copper) in specific conditions, especially at the nanoscale.

Ballistic transport

CNTs can conduct electrons with minimal scattering (ballistic transport) over longer distances, particularly at smaller scales. This property becomes crucial as we approach the limits of miniaturization in electronic devices, lightweight and flexible, with high thermal conductivity (preventing overheating in high-performance devices, a common issue in densely packed circuits), especially in electronics and telecommunications. While copper has been the standard material for electrical wiring due to its high conductivity and availability, CNTs offer several advantages that make them attractive for next-generation technologies.