Researchers show a temperature tunable smart fluid that overcomes limits in liquid crystal microcolloids, enabling reconfigurable self assembly of microparticles.

Controlled defects in single-layer graphene pinpoint a critical 20 nm spacing where quantum interference traps electrons and ...

A physics informed machine learning model predicts thermal conductivity from infrared images in milliseconds, enabling fast, ...

Innovative co-doping strategy overcomes long-standing limits in proton conduction, opening a new way for efficient hydrogen-to-electricity conversion.

Researchers discovered unexpected atomic ordering in a tantalum tungsten selenium crystal, linking self organization and ...

Therapeutic mRNA delivered via lipid nanoparticles restored sperm production in genetically infertile mice and produced live ...

Scientists tracked polaron formation for the first time using ultrafast imaging, confirming decades-old predictions about electron energy loss and mass gain in crystal lattices.

By engineering lubricated interfaces inside nanopores, researchers have enabled ions to flow through a nanofluidic membrane ...

Despite impurities and defects, lead-halide perovskites efficiently convert solar energy, rivaling silicon cells. Physicists now explain the mechanism behind this surprising efficiency.

Electrically switchable adhesion in a ferroelectric polymer film enables clean, fast, solvent-free transfer of graphene from copper growth substrates to target surfaces.

Flexible plastic films stamped with dense nanopillar arrays mechanically rupture viral particles, reducing infectivity by 94% ...

Neutral particles can outpace diffusion in electric fields, shifting motion regimes over time; the model predicts behavior in ...