2019
DOI: 10.1021/acsnano.9b01713
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Perovskite/Black Phosphorus/MoS2 Photogate Reversed Photodiodes with Ultrahigh Light On/Off Ratio and Fast Response

Abstract: As compared with epitaxial semiconductor devices, two-dimensional (2D) heterostructures offer alternative facile platforms for many optoelectronic devices. Among them, photovoltaic based photodetectors can give fast response, while the photogate devices can lead to high responsivity. Here, we report a 2D photogate photodiode, which combines the benefits of 2D black phosphorus/MoS2 photodiodes with the emerging potential of perovskite, to achieve both fast response and high responsivity. This device architectur… Show more

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Cited by 96 publications
(64 citation statements)
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“…It was exponentially decreased upon increasing P , and a remarkably high responsivity of 1.1 × 10 4 , 5.3 × 10 4 , 4.5 × 10 4 , 3 × 10 4 , 2.8, and 7.8 A W −1 was achieved for the excitations of 360, 457, 532, 671, 914, and 1064 nm, respectively. These values are superior to the pure, [ 47–48 ] and among the top level of photodetectors based on sensitized monolayer MoS 2 [ 49 ] and other 2D materials, [ 50 ] and also being great advantage over the photodetector (see Table S1, Supporting Information for more comparison). The high responsivity and wide spectral range observed for FET‐21% phototransistor are attributed to the efficient charge transfer at the interface of Sb 2 O 3 /MoS 2 and the infinite absorbance from ultraviolet to the infrared regime (Figure 1e).…”
Section: Resultsmentioning
confidence: 99%
“…It was exponentially decreased upon increasing P , and a remarkably high responsivity of 1.1 × 10 4 , 5.3 × 10 4 , 4.5 × 10 4 , 3 × 10 4 , 2.8, and 7.8 A W −1 was achieved for the excitations of 360, 457, 532, 671, 914, and 1064 nm, respectively. These values are superior to the pure, [ 47–48 ] and among the top level of photodetectors based on sensitized monolayer MoS 2 [ 49 ] and other 2D materials, [ 50 ] and also being great advantage over the photodetector (see Table S1, Supporting Information for more comparison). The high responsivity and wide spectral range observed for FET‐21% phototransistor are attributed to the efficient charge transfer at the interface of Sb 2 O 3 /MoS 2 and the infinite absorbance from ultraviolet to the infrared regime (Figure 1e).…”
Section: Resultsmentioning
confidence: 99%
“…Generally, there are three ways to characterize it. i) The time intervals (rise time and fall/decay time) between photocurrent level reaching 10% and 90% (0 to 80% sometimes) of its saturation level upon on/off illumination cycles; ii) the light modulation frequency at which the photocurrent drops to −3 dB from its stabilized level; iii) the time constants extracted from the double‐exponential function fitting curves of the temporal response …”
Section: Device Geometries and Performance Parametersmentioning
confidence: 99%
“…The excellent light absorption capability, relatively long diffusion length of charge carriers and tunable bandgap ( E g ) have been flourishing metal‐halide perovskite materials in the last several years in both research and industrial community. Applications of perovskites include photovoltaics, light‐emitting diodes, photodetectors, solar fuels, etc. Since the first attempt to use lead‐halide perovskite as light absorber for solar cells by Miyasaka in 2009 with an efficiency of 3.8% using I − /I 3 − as redox mediator, the inorganic–organic hybrid perovskite‐based solar cells (PSCs) have reached a certified power conversion efficiency (PCE) of 24.2% in 2019, which is comparable with that of copper indium–gallium diselenide (CIGS) and silicon‐based solar cells.…”
Section: Introductionmentioning
confidence: 99%