What is a superconductor, and how does it work? Do room-temperature superconductors really break physics? Read on to find out. Share on Facebook (opens in a new window) Share on X (opens in a new ...

In chiral crystals, the spatial arrangement of atoms confers a specific "handedness," which—for example—influences their optical and electrical properties. A Hamburg-Oxford team has focused on ...

Here, the authors investigate the SDE in the chiral type-I superconductor, NbGe 2, showing that the vortex dynamics play a significant role in the observed transport properties. This study ...

Superconductors can carry electricity without losing energy, a superpower that makes them invaluable for a range of sought-after applications, from maglev trains to quantum computers. Generally ...

Why Trust Us? One of the things that makes graphene so special is that it can turn into a superconductor when super-thin sheets of it are stacked on top of each other in a twisted moiré pattern.

Physicists hit major milestone in advancing superconductor applications Groundbreaking progress in finding path for ambient-pressure high-temperature superconductors Date: February 10, 2025 Source ...

Chiral solids, for example, offer exciting opportunities for catalysis, sensing and optical devices by enabling unique interactions with chiral molecules and polarized light. These properties are ...

Lee is Associate Professor in Materials Chemistry. Lee completed his PhD in Materials Chemistry at the Royal Institution of Great Britain, and he was awarded the Ramsay Medal by University College ...