MIT researchers have designed silicon structures that can perform calculations in an electronic device using excess heat instead of electricity. These tiny structures could someday enable more ...

The world sits on the brink of a major ecological disaster and the need for renewable energy sources has never been more urgent. Perhaps the most significant source of untapped renewable energy is, ...

Researchers at the University of California, Riverside have unlocked a hidden power within silicon, the backbone of modern electronics. Their findings could transform how future devices are built, ...

An innovative method uses the intrinsic attractive force between silicon surfaces that are separated by a tiny gap to engineer structures that can confine light — offering an ideal set-up for ...

An image of the 4.7-μm 4-inch wafer with arrow indicating the TSRR structure. Underneath a white light, the letters “SJTU SYSU” printed on a piece of paper below the thin silicon wafer are clearly ...

Skeletal-editing reactions are offering chemists an ever-expanding toolbox of techniques to add, swap, or subtract atoms in molecular backbones. Now two research teams have developed complementary ...

Authors: Shunsuke Abe, Hideo Hara, Shin Masuda, and Hirohito Yamada. This paper describes a simple fabrication process of verticaltaper structures which can locally tune the thickness of silicon ...