Self Assembled particles enable more efficient, stable and durable perovskite-based LEDs
by noreply@blogger.com (brian wang) from NextBigFuture.com on (#2C3AF)
Princeton engineering researchers have illuminated another path forward for LED technologies by refining the manufacturing of light sources made with crystalline substances known as perovskites, a more efficient and potentially lower-cost alternative to materials used in LEDs found on store shelves.
The researchers developed a technique in which nanoscale perovskite particles self-assemble to produce more efficient, stable and durable perovskite-based LEDs. The advance, reported Jan. 16 in Nature Photonics, could speed the use of perovskite technologies in commercial applications such as lighting, lasers and television and computer screens.
Princeton researchers have refined the manufacturing of light sources made with crystalline substances known as perovskites, a more efficient and potentially lower-cost alternative to materials used in LEDs found on store shelves. (Photos by Sameer Khan/Fotobuddy)
Nature Photonics - Efficient perovskite light-emitting diodes featuring nanometre-sized crystallites
Read more
The researchers developed a technique in which nanoscale perovskite particles self-assemble to produce more efficient, stable and durable perovskite-based LEDs. The advance, reported Jan. 16 in Nature Photonics, could speed the use of perovskite technologies in commercial applications such as lighting, lasers and television and computer screens.
Princeton researchers have refined the manufacturing of light sources made with crystalline substances known as perovskites, a more efficient and potentially lower-cost alternative to materials used in LEDs found on store shelves. (Photos by Sameer Khan/Fotobuddy)
Nature Photonics - Efficient perovskite light-emitting diodes featuring nanometre-sized crystallites
Read more