期刊
JOURNAL OF MATERIALS CHEMISTRY C
卷 9, 期 13, 页码 4682-4694出版社
ROYAL SOC CHEMISTRY
DOI: 10.1039/d1tc00329a
关键词
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资金
- Universidad Autonoma de Madrid, FPI-UAM grant
- Egyptian Ministry of Higher Education, Missions Section under Egyptian Joint Supervision Grant
- European Union
Three different configurations of hybrid organic-inorganic self-powered photodetectors were fabricated and characterized. The addition of a nanostructured porous silicon layer improved photoresponse under high irradiation levels. The use of Si + PSi micro-arrays instead of single PSi layers resulted in devices with significantly improved performance and broadband spectral responsivity.
Hybrid organic-inorganic self-powered photodetectors with three different configurations were fabricated and their optoelectronic performance was determined. Si is the inorganic active layer and the transparent conductor poly(3,4-ethylenedioxythiophene) polystyrene sulfonate (PEDOT:PSS) is the organic layer. The basic photodetector structure under study is Au/PEDOT:PSS/Si/Al. This device shows high responsivity under low irradiation levels, as well as a wideband response in the visible and near-infrared wavelength ranges. To improve the performance of this basic device, its structure was modified by the addition of a nanostructured porous silicon (PSi) layer on top of the Si substrate. The resulting Au/PEDOT:PSS/PSi/Si/Al devices have been found to show improved photoresponse under high irradiation levels together with narrowband spectral responsivity in the infrared region. To further improve the optoelectronic performance of the photodetectors, Si + PSi micro-arrays were used instead of single PSi layers, leading to devices with the structure Au/PEDOT:PSS/(Si + PSi micro-arrays)/Si/Al. These devices possess a much improved performance, showing a responsivity of 1172.87 mA W-1, a specific detectivity of 5.81 x 10(13) Jones, and a fast response speed of 396/412 mu s at 0 V bias under white-light illumination (100 mu W). Furthermore, a broadband spectral responsivity was achieved, with a maximum value of 473 mA W-1 at 853 nm. This improved behavior is associated with the combined effect of an effective reduction of the reflectance due to the presence of PSi and an improvement of the electrical conduction given by the presence of heavily-doped Si regions.
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