2018
DOI: 10.1002/aelm.201800154
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Synthesis of Submillimeter‐Scale Single Crystal Stannous Sulfide Nanoplates for Visible and Near‐Infrared Photodetectors with Ultrahigh Responsivity

Abstract: Layered 2D semiconductor such as graphene and transitionmetal dichalcogenide (TMDs) has become intriguing building blocks during the past few years for their great performance in electronic and optoelectronic application. [1][2][3][4][5][6] Graphene has been widely studied by researchers very early for its outstanding performance such as ultrahigh carrier mobility, great thermal conductivity, and ultrahigh photoelectric response in wide range. [7] However, the intrinsic gapless bond structure of Layered 2D sem… Show more

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Cited by 18 publications
(11 citation statements)
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“…The highest I p appears for illumination with 365 nm ultraviolet light when measuring the wavelength dependence of the 25 ML SnS photodetector. The performance of the 2D SnS photodetectors studied in this work as well as the recently reported performance of other 2D SnS‐based photodetectors are summarized in Table S2, Supporting Information 54,55,62–66. We notice our 2D SnS photodetectors all work under extremely low illumination power density (down to 40 µW cm −2 ) and exhibit response over a broad wavelength range with large D * values.…”
Section: Resultsmentioning
confidence: 60%
“…The highest I p appears for illumination with 365 nm ultraviolet light when measuring the wavelength dependence of the 25 ML SnS photodetector. The performance of the 2D SnS photodetectors studied in this work as well as the recently reported performance of other 2D SnS‐based photodetectors are summarized in Table S2, Supporting Information 54,55,62–66. We notice our 2D SnS photodetectors all work under extremely low illumination power density (down to 40 µW cm −2 ) and exhibit response over a broad wavelength range with large D * values.…”
Section: Resultsmentioning
confidence: 60%
“…S3 †) of ultrathin SnS NSs exhibits two typical peaks located at 93 and224 cm À1 , corresponding to the Ag modes of the orthorhombic SnS phase. 30,31 An obvious decrease in the peak intensity of the Raman spectrum and a blue shi of the Ag band located at 224 cm À1 are observed for ultrathin SnS NSs as compared with bulk SnS, demonstrating the reduced numbers of SnS layers aer electrochemical exfoliation. 20,27,28 The efficient exfoliation of bulk SnS was further supported by the X-ray diffraction (XRD) patterns, in which the diffraction peaks of ultrathin SnS NSs are broader and weaker than those of the bulk SnS (Fig.…”
Section: Resultsmentioning
confidence: 97%
“…2D group IVA metal chalcogenides are a growing interest in IR photodetection, including GeSe, SnS, SnS 2 , SnSe 2 , and PbS due to their unique crystal structures and electronic structures. GeSe possesses a high anisotropic crystal structure, thus inducing anisotropic optical absorption .…”
Section: Individual 2d Metal Chalcogenides For Ir Photodetectionmentioning
confidence: 99%