A team at UNIGE has uncovered a geometric structure once thought to be purely theoretical at the core of quantum materials, opening the door to major advances in future electronics. How can ...

Perovskites are promising materials for solar cells. A layer of dipolar molecules at the perovskite surface improves the ...

Materials scientists at Rice University and collaborators have developed a material that uses light to break down a range of ...

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

Metal nanostructures can concentrate light so strongly that they can trigger chemical reactions. The key players in this ...

Smooth filaments stretching for many light-years, seen by the powerful space telescope, could indicate what the right "recipe" is for dark matter.

Yonsei and LG Display reveal how magnesium fluoride boosts OLED performance University and LG Display pinpoint why magnesium ...

Programmable photonics promise faster and more energy-efficient computing than traditional electronics by using light to transmit signals. However ...

Light has always been the ultimate tool for etching information into silicon, but a new class of materials that can bend and ...

Being on the surface of a sizable planet moving at high speed through space, spinning around a yellow star and on its axis, ...

By directly communicating with the brain, a new wireless device could someday help restore lost senses or manage pain without medications, its developers say.

What will be the next blockbuster research to emerge from Princeton’s labs? No one can say for sure, but history tells us ...