1. Organic Cavity Photodetectors Based on Nanometer-Thick Active Layers for Tunable Monochromatic Spectral Response
- Author
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Zaifei Ma, Koen Vandewal, Ji-Ling Hou, Qingwei Wang, Zheng Tang, Donato Spoltore, Jing Wang, and Sascha Ullbrich
- Subjects
Materials science ,Spectrometer ,business.industry ,Overtone ,Photodetector ,02 engineering and technology ,021001 nanoscience & nanotechnology ,01 natural sciences ,Atomic and Molecular Physics, and Optics ,Electronic, Optical and Magnetic Materials ,Active layer ,010309 optics ,Wavelength ,Narrowband ,0103 physical sciences ,Transport layer ,Optoelectronics ,Monochromatic color ,Electrical and Electronic Engineering ,0210 nano-technology ,business ,Biotechnology - Abstract
Application of spectroscopic photo-detecting technologies in future innovations such as wearable or integrated electronics will require miniaturized spectrometers. This can be achieved by using an array of small-area, wavelength-selective photodetectors. Here, filterless narrowband photodetectors based on a novel device concept are demonstrated. The narrowband photoresponse is realized by utilizing nanometer-thick 2,2-((3,4-dimethyl-[2,2:5,2:5,2:5,2-quinquethiophene]-5,5-diyl)bis (methanylylidene))-dimalononitrile (DCV5T-Me):C60 photo-active layers (3-6 nm) in a Fabry-Perot cavity. By varying the cavity thickness, achieved by adjusting the transport layer thicknesses, we realize continuously tunable detection wavelengths, spanning the entire visible region (400-700 nm). Most importantly, because the active layer is only nanometer-thick, position of the active layer can be adjusted within the cavity. Thus, with an optimized position of the active layer, the photodetectors exhibit an overtone free, monochro...
- Published
- 2019
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