Where would carbon-based life be without carbon? There are 118 known chemical elements, but carbon is the fourth most abundant and perhaps the most important to human life. Everywhere you look, ...

Therefore, the concept called phonon glass-electron crystal (PGEC ... Simple examples for the novel structure in the SiGe NWs e.g., superlattice (SL), core-shell (C-S), etc., have been presented for ...

Electrons in rhombohedral pentalayer graphene form unexpected crystalline states, revealing new quantum behaviors and ...

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 ...

So far as we know, the idea of a quantised spinning of the electron was put forward for the first time by A. K. Compton (Journ. Frankl. Inst., Aug. 1921, p. 145), who pointed out the possible ...

MIT physicists discovered that electrons can form crystal-like structures in a material only a few billionths of a meter ...

Department of Applied Plasma & Quantum Beam Engineering, Jeonbuk National University, Jeonju 54896, Republic of Korea Department of Carbon Composites Convergence Materials Engineering, Graduate School ...

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 ...

Institute of Materials Research, Center of Double Helix, Tsinghua Shenzhen International Graduate School, Tsinghua University, Shenzhen 518055, P. R. China Shenzhen Key Laboratory of Advanced Layered ...

The development of various nanomaterials production technologies has led to the possibility of producing nanoparticles (NPs) and nanostructures, which can find a wide range of applications, from the ...