A team of researchers from Honda Research Institute USA, Inc., in conjunction with researchers at Purdue University and the University of Louisville, has developed a method for controllably growing carbon nanotubes with metallic conductivity. With further optimization, the researchers say, “direct control over nanotube structure during growth may well be feasible.” A paper on their work appears in the 2 Oct issue of the journal Science.
Carbon nanotubes are grown on the surface of metal nanoparticles, and take the form of rolled graphene sheets. The nanotube bonding configuration is known as its chirality. The chirality determines the conductivity of the nanotube—i.e., either metallic or semiconducting. Nanotubes exhibiting metallic conductivity possess extraordinary strength compared to steel, higher electrical properties than copper, are as efficient in conducting heat as a diamond and are as light as cotton.
The ability either to separate or to synthesize either all semiconducting or all metallic tubes would open new possibilities for fully exploiting carbon nanotubes in a wide range of miniaturization and energy efficiency applications, including much more powerful and compact computers, electrodes for supercapacitors, electrical cables, batteries, solar cells, fuel cells, artificial muscles, composite material for automobiles and planes, energy storage materials and electronics for hybrid vehicles.
– from greencarcongress.com