Full-electroluminescent white light-emitting diode technology is regarded as the best candidate for next-generation solid-state lighting source owing to its lower energy consumption than the current WLED based on blue LED chip and yellow phosphor.
Researchers have developed an innovative display that shows information through clothes and other fabrics.
Micrometer-scale light-emitting diodes are the ideal building block for next-generation microLED displays used in head-mounted monitors, mobile phones and televisions because they are bright, respond quickly, offer longevity and consume little energy.
Quantum dot light-emitting diode, which employs quantum dots as a light-emitting material, has attracted significant attention as a promising alternative for next-generation display technologies, owing to its outstanding electroluminescence properties.
Avicena Tech Corp., a privately held company in Mountain View, CA, is demonstrating its LightBundle™ multi-Tbps LED-based chip-to-chip interconnect technology at the European Conference for Optical Communications (ECOC) 2021 in Bordeaux, France.
TADF materials are the third generation of organic light-emitting materials developed after fluorescent and phosphorescent materials.
Innovations in Optics, Inc. is proud to introduce the new LumiSun™-50, an innovative, compact LED, AAA solar simulator based on our OEM LumiSun™, which has sold in the thousands to leading PV manufacturers worldwide.
Australian semiconductor developer BluGlass Limited has successfully demonstrated working tunnel junction laser diodes in a world-first proof-of-concept using its proprietary remote plasma chemical vapour deposition technology.
Since there is always a need for a majority of the batteries to be recharged, scientists are finding ways to make use of ambient lighting as a possible source for producing small amounts of power for indoor devices.
At night, prolonged exposure to light could have negative impacts on human health. However, Japanese scientists have currently found a new kind of light with very few consequences for physiological variations during sleep.