The materials would be used for infrared lasers,
for photodetectors or for innovative LEDs in the infrared range, for example, since the physical properties of germanium are significantly changed by these additives.
Not exact matches
The
photodetector was developed under the NAVOLCHI (Nano Scale Disruptive Silicon - Plasmonic Platform
for Chip - to - Chip Interconnection) project.
The high - speed
photodetector, called PIPED (Plasmonic Internal Photoemission Detector), is now presented by Mühlbrandt as first author, together with colleagues of KIT and ETH Zurich, in the Optica journal under the heading «Silicon - Plasmonic Internal - Photoemission Detector
for 40 Gbit / s Data Reception.»
The newly developed
photodetectors, the smallest
photodetectors worldwide
for optical data transmission, can be used
for integrated optical circuits that significantly enhance the performance of optical communication systems.
Bound together by the relatively weak intermolecular attraction known as the van der Waals force, GBN heterostructures have shown high potential to serve as platforms not only
for high - electron - mobility transistors, but also
for optoelectronic applications, including
photodetectors and photovoltaic cells.
This can be useful,
for example,
for graphene applications such as ultra-fast
photodetectors and transistors, providing a way to tweak its incredible properties.
In our approach, stretchable
photodetectors and OLEDs are fabricated directly on a three - dimensionally micro-patterned stretchable substrate composed of curvilinearly connected bumps and valleys; this structure allows
for efficient absorption of stretching strain.
Rational Design and Synthesis of Polymeric Semiconductors
for High Performance Organic Photovoltaics and
Photodetectors
This effect, known as a photoconductive response, can be used to make a
photodetector or light sensor, and because the two - dimensional nanosheets exhibited such a strong photoconductive response across a broad light spectrum and simultaneously resist chemical contamination, this research could lead to a revolution in extreme low - light, high - resolution imaging products and applications, such as consumer and professional cameras and video cameras,
for example.
Plastic Logic, the leader in the development and industrialisation of flexible organic electronics, and ISORG, the pioneer in organic
photodetectors and large area image sensors in printed electronics, won the award
for their revolutionary large area flexible image sensor.
This feature combines four
photodetector sites on the sensor into one, making
for larger «pixels» that capture more light — the same thinking behind HTC's UltraPixel system.