MIT physicists have made an exciting discovery: in an ultra-thin material, electrons can form crystal-like structures, acting like tiny frozen blocks of energy. This unexpected finding adds to a ...

The research team delved into the intricate dynamics of electron shell structures within bilayer graphene quantum dot, focusing on how these structures can be manipulated through the trigonal ...

For this purpose, we introduce and characterize boron phosphide nanotubes, a class of materials that allow one to reach a goal without costly and toxic metal atoms. The tubular configuration imparts a ...

Institute for Molecular Modeling and Simulation, Department of Material Sciences and Process Engineering, University of Natural Resources and Life Sciences, Vienna, Muthgasse 18, Vienna 1190, Austria ...

1) Different properties are difficult to ensure at the same time. For example, graphitization facilitates electron transport, but the original structure is hardly maintained at high temperatures, ...

Optimized geometries of carbon doping at the N atom vicinal to the B-open edge active site calculated ... 4) Overall, carbon doping plays a positive role in modulating the catalytic ability of boron ...