Electrons can freeze into strange geometric crystals and then melt back into liquid-like motion under the right quantum ...

Metal feels colder than wood because it rapidly transfers heat away from your body due to its dense atomic structure and free ...

Electricity powers our lives, including our cars, phones, computers, and more, through the movement of electrons within a ...

Physicists finally identified why some quantum materials seemingly lose their electrical conductivity for no reason.

A single iron-sulfur building block directly determines whether ribosomes—the protein factories of our cells—work smoothly or ...

A water-based plasma method creates stable multimetal nanoparticles with a protective shell that improves light driven carbon ...

Cryo-electron microscopy confirms that controlled alignment of Photosystem I on graphene boosts electron flow and durability ...

An international team, headed by Dr. Chul-Hee Min and Professor Kai Rossnagel at Kiel University (CAU), has successfully unraveled a significant mechanism.

A theoretical framework predicts the emergence of non-reciprocal interactions that effectively violate Newton’s third law in ...

The silver-based coating adapts to changes in battery structure, reducing the risk of cracking or delamination. Silver ...

Ag-doped ZnO nanoparticles form a hydrogen sensor with exceptional sensitivity and rapid response, crucial for effective hydrogen safety monitoring.