A new synthesis of astronomical measurements confirms a persistent mismatch that could point to physics beyond current models ...

Researchers show superconductivity can be tuned by the surrounding environment in twisted bilayer graphene, pointing to more ...

A layered coating on delignified wood enables solar heat storage and electricity generation without carbonization, while ...

Water molecules replace mechanical force to exfoliate defect-free MXene nanosheets at kilogram scale, enabling record conductivity and lithium extraction from seawater. A single MXene sheet, roughly ...

Researchers developed a laser optothermal nanobomb method that flattens nanobubbles in 2D materials in 50 milliseconds while preserving optoelectronic properties. The work, led by Professors Benfeng ...

A biodegradable implant powered by a new single-atom iron electrode delivered acupuncture-style pain relief in mice, then dissolved harmlessly in the body.

A theoretical study shows that quantum excitations without topological protection, previously considered experimental limitations, can serve as spectroscopic tools for identifying quantum statistics.

Researchers argue that progress in SOFCs and SOECs depends on linking materials, electrochemistry, and system engineering through a reverse-guided design strategy.

Mineral casts of cancer cell surfaces reprogram fat cells into stem cells and improve insulin sensitivity in obese mice ...

Researchers developed a biochar nanocomposite that removes tetracycline from water by adsorption and light driven breakdown, achieving over ninety percent removal and enabling reuse.

The Kardar Parisi Zhang equation models surface growth. After forty years, researchers confirmed its two dimensional behavior using polaritons in engineered materials.