A study from the Research Center for Materials Nanoarchitectonics (MANA) has uncovered a theoretical mechanism showing how the electronic band structures of strongly correlated insulators can be ...

The electron world, where electrons (dwarfs) explore their energy band (beach), can be manipulated using external fields or light in strongly correlated insulators. This ability enables new electronic ...

This figure highlights the impact of band non-parabolicity on thermoelectric transport properties through four subplots: (a) Schematic comparison of ideal parabolic bands, non-parabolic bands, and ...

A team of researchers at Monash University has uncovered a powerful new way to engineer exotic quantum states, revealing a robust and tunable three-dimensional flat electronic band in an ultrathin ...

Scientists have decoded the electronic structure of water, opening up new perspectives for technological and environmental applications. There is no doubt that water is significant. Without it, life ...

Researchers have demonstrated that by using a semiconductor with flexible bonds, the material can be moulded into various structures using nano containers, without altering its composition, the ...

The Hall effect is a fundamental phenomenon in material science. It occurs when a material carrying an electric current is exposed to a magnetic field, producing a voltage perpendicular to both the ...

Bandgap refers to a region of an element’s crystal’s electronic band structure through which electrons can’t pass. Also referred to as an energy gap, bandgap is a concept in solid-state physics and ...

A technical paper titled “Strain Driven Electrical Bandgap Tuning of Atomically Thin WSe 2 ” was published by researchers at University of Toronto, University of Tokyo, and Stanford University.