Niobium phosphide can conduct electricity better than copper in films that are only a few atoms thick; moreover, these films can be created and deposited at sufficiently low temperatures to be ...

Institute for Advanced Materials and Technology, University of Science and Technology Beijing, Beijing 100083, China ...

A patterned chip with Hall bar devices of ultrathin niobium phosphide film. Credit: Asir Khan / Eric Pop. In the world of electronics, thinner is often better. But as wires shrink to just a tiny ...

Researchers from Stanford has discovered that niobium phosphide, a topological semimetal, conducts electricity more efficiently than copper in films only a few atoms thick. These films can be ...

A patterned chip with Hall bar devices of ultrathin niobium phosphide film. Credit: Asir Khan / Eric Pop Stanford researchers have uncovered a new material, niobium phosphide, that surpasses copper in ...

Optoelectronic Materials Section, Faculty of Applied Sciences, Delft University of Technology, Van der Maasweg 9, 2629 HZ Delft, The Netherlands ...

This site displays a prototype of a “Web 2.0” version of the daily Federal Register. It is not an official legal edition of the Federal Register, and does not replace the official print version or the ...