2020
DOI: 10.1016/j.physb.2020.412467
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Two-dimensional SnO ultrathin epitaxial films: Pulsed laser deposition growth and quantum confinement effects

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Cited by 6 publications
(4 citation statements)
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“…Moreover, Gao et al investigated the TMDs MoSe2/WSe2 heterostructure photodetector based on epitaxial n-doped 4H-SiC which provided enhanced photo-response behavior through gate modulation, exhibiting low leakage current, high stability and fast photoresponse. [108] The maximum responsivity of the heterostructure photodetector was 7.17 A/W, the corresponding maximum EQE and detectivity were 1.67 × 10 3 % and 5.51 × 10 11 Jones with a maximum Ilight/Idark ratio of ∼10 3 . Many electrons in this n-type heterostructure can participate in the photocurrent, increasing the carrier concentration at the gate voltage, and resulting an EQE much high than 100%.…”
Section: Photodetectorsmentioning
confidence: 99%
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“…Moreover, Gao et al investigated the TMDs MoSe2/WSe2 heterostructure photodetector based on epitaxial n-doped 4H-SiC which provided enhanced photo-response behavior through gate modulation, exhibiting low leakage current, high stability and fast photoresponse. [108] The maximum responsivity of the heterostructure photodetector was 7.17 A/W, the corresponding maximum EQE and detectivity were 1.67 × 10 3 % and 5.51 × 10 11 Jones with a maximum Ilight/Idark ratio of ∼10 3 . Many electrons in this n-type heterostructure can participate in the photocurrent, increasing the carrier concentration at the gate voltage, and resulting an EQE much high than 100%.…”
Section: Photodetectorsmentioning
confidence: 99%
“…In figure 10(a), Goel et al introduced the UV photodetector based on MoS 2 /GaN heterostructure synthesized by wafer-scale sputtering method [91]. The great absorption of light by several layers of MoS 2 film led to high performance of MoS 2 /GaN photodetector, showing high external spectral responsivity (∼10 3 A W −1 ) and detectivity (∼10 11 Jones) with very fast response time (∼5 ms), as displayed in figures 10(b) and (c). The observed responsivity and detectivity decreased with increasing light intensity due to the presence of trap states at the MoS 2 /GaN interface and in the MoS 2 thin film.…”
Section: Photodetectorsmentioning
confidence: 99%
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