Carbon nanotube-based fibers have greater capacity to carry electrical current than copper cables of the same mass, scientists show. On a pound-per-pound basis, carbon nanotube-based fibers invented ...

Figure 1: Fabrication and ampacity of CNT–Cu composite. We numerically estimated the ampacity of the CNT–Cu composite by assuming that the material ruptured by current-induced Joule heating, leading ...

Kenji Hata (Prime Senior Researcher), the Nanotube Research Center (NTRC; Director: Sumio Iijima) of the National Institute of Advanced Industrial Science and Technology (AIST; President: Ryoji ...

A team of researchers from Rice University, in collaboration with scientists at the Dutch firm Teijin Aramid, have concluded a study that proves on a pound-for-pound basis, carbon nanotube-based ...

Steps taken to enhance copper conductivity by adding carbon nanotubes. Test results for conductivity, current-carrying capacity, and tensile strength. We know that copper (Cu) fortunately combines ...