based in Oita, Japan. “Carbon nanotubes, discovered by Japanese researchers in 1991, initially garnered attention for their extraordinary strength, conductivity, and adaptability for use in ...

Carbon-based structures, such as carbon nanotubes (CNTs) have much higher electrical conductivity than copper, as does graphene. The main issue is that making wires out of them is not exactly ...

Super-growth-carbon nanotube additives offer additional advantages in applications requiring electrical conductivity. One potential biomedical application, currently in development, is a wearable ...

Researchers develop an eco-friendly process to convert CO2 into buckypaper, creating scalable, cost-effective materials for ...

When it comes to the best headphones, electrostatic models are highly prized by audiophiles for their natural delivery and ...

Thomas, Boris J.C. Shaffer, Milo S.P. and Boccaccini, Aldo R. 2009. Sol–gel route to carbon nanotube borosilicate glass composites. Composites Part A: Applied ...

Carbon nanotubes (CNTs) come in a variety of diameters ... The structure of the nanotube influences its properties - including electrical and thermal conductivity, density, and lattice structure. Both ...

Between its strength and conductivity, this thread could have ... and never liked tight shirts anyway. What else can carbon nanotubes do? Plenty, like keep 3D prints from delaminating.

The nanotechnology company OCSiAl has commissioned a dispersion plant for single-walled carbon nanotubes in Serbia. These are ...

The multi-functional additive, Miralon Carbon Nanotube Pulp, enhances material performance through improved conductivity, strength, and durability across various industries.

Our work demonstrates that high-performance materials made from carbon nanotubes are recyclable and can be reused in the same application as structural reinforcement or electrical conductors. This is ...

Audeze just unveiled its new CRBN2 headphones. These use a new patent-pending technology to push your audio to the next level ...