Chirality in organic superconductors was found to induce giant spin-current coupling, mimicking strong spin-orbit effects.

An international team has succeeded in producing new, efficient thermoelectric materials that could compete with state-of-the-art materials, offering greater stability and lower cost.

Researchers developed hybrid thermoelectric materials that double energy conversion efficiency by decoupling heat and charge transport.

A team led by UChicago Pritzker Molecular Engineering has discovered materials that defy convention, shrinking when heated ...

Consumer electronic devices are made from materials that we have been using for more than 60 years, mainly silicon, germanium ...

Paul Simon left no doubt when he left Art Garfunkel that he was going to be a solo artist of note. His first three albums out of the gate on his own all received massive acclaim and did extremely ...

Part of our International Year of Quantum Science and Technology coverage This episode of the Physics World Weekly podcast features William Phillips, who shared the 1997 Nobel Prize for Physics for ...

When a demonstrator was captured on video in January at a New York rally against the State of Israel ... About the Author Simon Kupfer is a student in London, England, concerned with Israeli ...

GENEVA (AP) — Top minds at the world's largest atom smasher have released a blueprint for a much bigger successor that could vastly improve research into the remaining enigmas of physics.

U.S. government scientists have developed a new phase of matter dubbed 'half ice, half fire,' which unites opposing electron spins in a unique magnet.

Solid-state batteries (SSBs) have been hyped for more than a decade as the next big innovation in electric vehicle (EV) performance, promising faster charging, better range, and longer lifespans.