Controllable 3D plasmonic nanostructures for high-quantum-efficiency UV photodetectors based on 2D and 0D materials

Controllable 3D plasmonic nanostructures for high-quantum-efficiency UV photodetectors based on 2D and 0D materials

The confinement of incident light waves for light-matter interactions, especially for 2D materials with axially limited areas, commonly limits the development of high-performance photodetectors with a wide range of semiconductors in the nanoscale. Herein, we propose an approach to spatially extend t...

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Veröffentlicht in:Materials horizons 2020-03, Vol.7 (3), p.95-911
Hauptverfasser: Li, Ming-Yu, Yu, Muni, Jiang, Shenglin, Liu, Sisi, Liu, Hezhuang, Xu, Hao, Su, Dong, Zhang, Guangzu, Chen, Yuntian, Wu, Jiang
Format: Artikel
Sprache:eng
Schlagworte:
Aluminum oxide
Confinement
Energy utilization
Incident light
Light
Light beams
Nanostructure
Optical properties
Photometers
Quantum efficiency
Solar energy
Two dimensional materials
Ultraviolet radiation
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