Materials Science

Researchers at UCL create one-atom-thick arsenic-phosphorus nanoribbons, boosting batteries, solar cells, and quantum computing.

In-depth study confirms quantum spin liquid behavior in KYbSe2, paving the way for quantum tech advancements.

Cutting-edge research explores lithium metal anodes and artificial SEI layers for safer, high-performance batteries.

Innovative method converts persistent PFAS into valuable fluorine-enhanced NHCs, revolutionizing chemistry and materials science.

Innovative MIT method uses lasers to test metamaterials, aiding advancements in technology and materials science.

Led by Bo Zhen from the School of Arts & Sciences, a team of researchers has innovatively created materials by…

Summary of a Nature Review Physics article on a major advancement in validating DFT codes for material science, featuring a …

MIT physicists create a 3D crystal trapping electrons in a flat band, mirroring ‘kagome’ art, a potential leap for superconductivity …

MIT team converts graphite to exhibit new insulating, magnetic, and topological traits, redefining materials physics with nanotechnology.

Revolutionary FibeRobo fiber by MIT alters fabric properties with temperature, promising adaptive textiles for diverse applications.