Two-dimensional (2D) materials promise revolutionary advances in electronics and photonics, but many of the most interesting ...

When compressed, the alloy heats up as its internal structure shifts. A circulating liquid absorbs that heat and carries it away to the surroundings. When the pressure is released, the alloy structure ...

For the modern technology leader, the quest for peak performance has traditionally been a matter of chemistry, an endless ...

Researchers have now achieved the first atomic‑resolution imaging of monolayer transition metal diiodides, made possible by ...

Graphene encapsulation enables atomic resolution imaging of highly reactive 2D diiodides, preserving clean interfaces and ...

A research team led by UAB researcher David Reverter has discovered the molecular mechanism that describes in detail the ...

The U.S. Department of Energy (DOE) maintains one of the richest and most diverse histories in the federal government. Although the department itself has only existed since 1977, its lineage traces ...

The total energy of the ball consists of its potential energy (related to position) plus its kinetic energy (related to motion). To zero out both components, you would have to give a precise value to ...

Adani Power has established Adani Atomic Energy Limited, a wholly owned subsidiary, to generate, transmit, and distribute ...

A new study reveals how intertwined forms of frustration in quantum materials can give rise to unconventional magnetic states.

The implications of the breakthrough could ripple through multiple industries. A better understanding of how superconductivity behaves at quantum scales could accelerate the development of ...