With the use of the new super material graphene, Swedish and American researchers have succeeded in producing a new type of lighting component. It is inexpensive to produce and can be fully recycled.
The invention, w...
MIT researchers have demonstrated the first laser built from germanium that can produce wavelengths of light useful for optical communication. It’s also the first germanium laser to operate at room temperature.
UK academic researchers working in the area of photonics have been given a boost today with the announcement that Vancouver-based Lumerical Solutions, Inc. has donated ten FDTD Solutions Engine licenses to ScotGrid. Scie...
A mystical glow emanates from the display case. A white light appears out of nowhere. And a light source is invisible - at least at first glance. Only upon close examination does the source of the apparently supernatural...
The Flexible Display Center (FDC) at Arizona State University today announced that the Printable Electronics Technology Center (PETEC) has become an Associate Member to collaborate on high-performing organic thin film tr...
Organic Light Emitting Diodes (OLED) are being developed for the next generation of displays and light sources. The QDI 302™ microscope spectrophotometer, from CRAIC Technologies, is designed to measure and compare the spectral output, intensity and color consistency of each of the microscopic pixels commonly found in OLED devices.
Researchers at the Joint Quantum Institute (JQI), a collaboration of the National Institute of Standards and Technology and the University of Maryland at College Park, can speed up photons (particles of light) to seemingly faster-than-light speeds through a stack of materials by adding a single, strategically placed layer.
Peratech Limited, the leader in new materials designed for touch technology solutions, has announced that Nissha, one of the world's largest manufacturers of touch screen technology, has signed a $1.4 million licensi...
The U.S. Department of Energy has awarded PPG Industries (NYSE:PPG) a $1.6 million grant for the development of a low-cost glass substrate to promote the commercialization and mass production of organic light-emitting di...
A research team from Northeastern University has developed a new nanolens that can beat the diffraction limit to achieve so-called super-resolution imaging, better than can be achieved by current technology. The nanolens...
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