“Although a wide range of [superconductor] correlated phenomena have indeed been observed in the moiré TMDs, robust ...

Because of the dual conduction bands, the pair spin-orbit interaction comes from the electric forces (Coulomb forces) of one band on the other bands electrons. An inversion asymmetry is no longer ...

Researchers reveal that plasmons in boron-doped diamonds are driving advances in electronics, optics and quantum computing.

To improve the durability of tin perovskite, a method called Ruddlesden-Popper (RP) has been proposed that introduces large ...

Ultrawide-bandgap semiconductors—such as diamond—are promising for next-generation electronics due to a larger energy gap between the valence and conduction bands, allowing them to handle higher ...

However, despite the careful study of thousands of crystals, most Weyl materials to date exhibit electrical conduction governed overwhelmingly by undesired, trivial electrons, obscuring the Weyl ...

A new technical paper titled “Where Do the Electrons Go? Studying Loss Processes in the Electrochemical ... in solution are reversible when the reduction potential is in the conduction band of the ...

Researchers have built a deep-ultraviolet microscope to study hard-to-analyze materials like diamond, offering a new way to probe their electronic and thermal properties at the nanoscale. This ...

Credit: Public domain Collectively, electrons that are not tightly attached to just one nucleus are called the conduction band. By absorbing energy in the form of a phonon (heat) or a photon ...

The material offers a window into how the physical properties of quantum solids, such as light transmission, electrical conduction, or response to ... “frustrates” the kinetic motion of traversing ...