Technologies that underpin modern society, such as smartphones and automobiles, rely on a diverse range of functional ...

Floquet control uses time-periodic drives to engineer quantum systems, creating dynamic changes in material properties ...

Stanford researchers have developed a flexible material that can quickly change its surface texture and colors, offering ...

Inspired by the remarkable camouflage abilities of octopus and cuttlefish, Stanford researchers have developed a soft material that can rapidly shift its surface texture and color at extremely fine ...

Shape memory alloys are exotic materials that can be deformed at room temperature and return to their "remembered," ...

Calculations show that injecting randomness into a quantum neural network could help it determine properties of quantum ...

Ultrasonic-assisted hot pressing (UAHP) has shown significant potential in enhancing both densification and mechanical ...

Titanium vs. plastic vs. wood cutting board comparison examines TIBO and non-porous kitchen surfaces as hygiene and safety ...

Scientists at the Paul Scherrer Institute PSI have refined an X-ray diffraction technique for detecting biological structures ...

Semiconductors are used in devices such as memory chips and solar cells, and within them may exist invisible defects that ...

Over the past decades, there has been a remarkable surge in the development and utilization of dental biomaterials, ...

A multi-disciplinary team of researchers linked atomic-scale features to efficient heat-to-electricity conversion, offering ...