The University of Tennessee's physicists have led a scientific team that found silicon—a mainstay of the soon-to-be trillion-dollar electronics industry—can host a novel form of superconductivity that ...

With a carefully designed experiment and a handful of tin atoms, University of Tennessee, Knoxville's physicists have found a ...

A surprising breakthrough in physics could reshape the future of computing by tapping into a strange, previously untapped property of matter. Scientists have shown that tiny atomic vibrations—called ...

New molecular design unlocks high photoluminescence efficiency and improved stability, with potential applications in lasers, ...

The resulting material retains the handedness that makes chiral semiconductors promising building blocks for next-generation ...

A dopant molecule accepts electrons from a chiral perovskite host, enabling visible light absorption while preserving the ...

A study finds chiral structures, with mirror-image configurations, can emerge from nonchiral systems, suggesting new ways to engineer these materials. Hold your hands out in front of you, and no ...

The non-chiral kagome lattice (corner-sharing triangles) basis of the topological material KV3Sb5 is found to develop subtle electronic chirality near the surface which shows distinct electromagnetic ...

The twisting direction of metal nanoparticles is controlled to be right- or left-handed by adding chiral molecules, which are adsorbed onto the particle surface, during the electrochemical reduction ...