A new phosphorescent material remembers mechanical stress and resets with ultrasound, enabling reusable optical sensors to ...

They demonstrate that the flow of energy between light, metal, and molecules can be deliberately controlled simply by ...

Researchers formed stable vortex knots in chiral nematic liquid crystals and used electric pulses to reversibly fuse and ...

Physicists show how microscopic particles can harness fluctuations and external forces to minimize transport energy and even ...

Researchers show visible light can polymerize conductive plastics into electrodes without toxic chemicals, enabling sensors ...

Researchers developed a highly selective membrane that efficiently separates carbon dioxide from other gases, supporting ...

Study shows acid treated carbon nanotube electrodes enable scalable flexible perovskite solar modules over 20% efficient and ...

A metasurface-enhanced thermal photodetector achieves 125 picosecond response times, approaching semiconductor speeds without ...

Tellurium nanowire transistors switch between boosting and suppressing their light response through voltage alone, enabling ...

Active boundary heating and cooling can make a small object look much larger to thermal sensors, a step toward compact ...

What many engineers once saw as a flaw in organic electronics could actually make these devices more stable and reliable, ...

A titanium-based metal-organic framework achieves record electron storage density among MOFs and releases these accumulated ...