A stretchable, self-healing gel visibly changes color when pulled or heated, combining strength and built-in sensing in a single material designed for wearable devices and soft robotics.

Moving excitons with light and a nano-ridge could help bridge optics and electronics, enabling new devices and faster, more ...

New findings show how imperfections and electrodes work together to power reliable, energy-efficient computer memory at the ...

The normal clotting process involves an enzyme with two sub-units, tissue factor and factor VIIa. When that combo links up on ...

Researchers develop a highly efficient method to provide coherent light of any wavelength from visible to mid-infrared with a ...

The first gravitational wave detection in 2015 confirmed Einstein’s century-old prediction that massive accelerating objects, ...

Scientists can now zoom in on protein segments in living cells, tracking changes linked to early disease and aiding drug ...

Engineered bacteria reprogram tumor macrophages and direct copper into cancer cells, triggering cell death and systemic immunity without damaging healthy tissue.

A wandering black hole in a dwarf galaxy 230 million light-years away, offset from the center and launching jets, offers ...

A new specimen holder gives scientists more control over ultracold temperatures, enabling the study of how materials acquire ...

A new MOF design using controlled crystallization achieves a rare combination of fast, stable hydrogen storage and low system ...

A new chemical liquid deposition process enables metal-organic resists to work with B-EUV radiation, overcoming a key barrier ...