Researchers at the Cavendish Laboratory in Cambridge and Toshiba Research Europe have produced a new way to produce entangled photons, a key technique for quantum encryption and computing. The ...

From TVs, to solar cells, to cutting-edge cancer treatments, quantum dots are beginning to exhibit their unique potential in many fields, but manufacturing them at scale would raise some issues ...

Light-emitting diodes (LEDs) are prevalent in everything from digital clocks to solar panels, traffic lights, electronic banners and signs, Christmas decorations, as well as smartphone and tablet ...

This next-generation smart lighting system was created by researchers from the University of Cambridge. But more interestingly, it was a convergence of many disciplines - such as color science, ...

Entangled light proves quantum computers can do what classical methods can't - cut years of work into seconds, an enormous quantum advantage ...

An Si quantum dot (QD)-based hybrid inorganic/organic light-emitting diode (LED) that exhibits white-blue electroluminescence has been fabricated researchers. A hybrid LED is expected to be a ...

Researchers have studied the interaction of two materials, halide perovskite and quantum dots, revealing enormous potential for the development of advanced LEDs and more efficient solar cells.

Quantum wells are thin layered semiconductor structures that derive most of their properties from the quantum confinement of charge carriers (electrons and holes) in thin layers of a semiconductor ...