Addressable active layers are highly required in optoelectronic devices to realize functional integration and application. Metal halide perovskites have shown promising applications in optoelectronic ...
In the new study, Kim et al. developed a versatile and large-area scalable approach to extend the detection bandwidth of a photodetector from UV to IR. The scientists used monolithic integration of ...
(Nanowerk News) Rapidly advancing technology fields such as wearable devices, soft robotics, and healthcare monitoring, require ultrathin flexible optoelectronic devices. These devices need to meet ...
Using its Semiconductor 2.0 Platform process, NANOIDENT Technologies AG has manufactured an 18- by 12-cm photodetector array on a flexible PET (polyethylene terephthalate) foil substrate. The company ...
a, Fluorescence microscopy image of MAPbBr₃ array above the lasing threshold. b, Statistics of the lasing threshold of MAPbBr₃ array. c, Lorentzian fitting result of a lasing peak. d, Schematic ...
Northwestern Engineering researchers have developed a new approach to quantum device design that has produced the first gain-based long-wavelength infrared (LWIR) photodetector using band structure ...
You’re undoubtedly familiar with the clip-on blood oxygen sensor and meter that uses a pair of LEDs and a photosensor. This non-intrusive transmissive-light device—which took decades to develop, ...
(Nanowerk Spotlight) Optical information processing is a critical technology for applications ranging from machine vision to high-speed optical communication. However, current photodetection systems ...
Addressable active layers are highly required in optoelectronic devices to realize functional integration and application. Metal halide perovskites have shown promising applications in optoelectronic ...
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