Synthesis and photoresponse of Large GaSe Atomic Layers

Sidong Lei; Liehui Ge; Zheng Liu; Sina Najmaei; Gang Shi; Ge You; Jun Lou; Robert Vajtai; Pulickel M. Ajayan

doi:10.1021/nl4010089

Synthesis and photoresponse of Large GaSe Atomic Layers

Sidong Lei, Liehui Ge, Zheng Liu, Sina Najmaei, Gang Shi, Ge You, Jun Lou, Robert Vajtai, Pulickel M. Ajayan^*

^*Corresponding author for this work

Rice University

Research output: Contribution to journal › Article › peer-review

418 Citations (Scopus)

Abstract

We report the direct growth of large, atomically thin GaSe single crystals on insulating substrates by vapor phase mass transport. A correlation is identified between the number of layers and a Raman shift and intensity change. We found obvious contrast of the resistance of the material in the dark and when illuminated with visible light. In the photoconductivity measurement we observed a low dark current. The on-off ratio measured with a 405 nm at 0.5 mW/mm² light source is in the order of 10³; the photoresponsivity is 17 mA/W, and the quantum efficiency is 5.2%, suggesting possibility for photodetector and sensor applications. The photocurrent spectrum of few-layer GaSe shows an intense blue shift of the excitation edge and expanded band gap compared with bulk material.

Original language	English
Pages (from-to)	2777-2781
Number of pages	5
Journal	Nano Letters
Volume	13
Issue number	6
DOIs	https://doi.org/10.1021/nl4010089
Publication status	Published - Jun 12 2013
Externally published	Yes

ASJC Scopus Subject Areas

Bioengineering
General Chemistry
General Materials Science
Condensed Matter Physics
Mechanical Engineering

Keywords

2D materials
atomically thin
gallium selenide
photoconductivity
vapor phase growth

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10.1021/nl4010089

Cite this

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title = "Synthesis and photoresponse of Large GaSe Atomic Layers",

abstract = "We report the direct growth of large, atomically thin GaSe single crystals on insulating substrates by vapor phase mass transport. A correlation is identified between the number of layers and a Raman shift and intensity change. We found obvious contrast of the resistance of the material in the dark and when illuminated with visible light. In the photoconductivity measurement we observed a low dark current. The on-off ratio measured with a 405 nm at 0.5 mW/mm2 light source is in the order of 103; the photoresponsivity is 17 mA/W, and the quantum efficiency is 5.2%, suggesting possibility for photodetector and sensor applications. The photocurrent spectrum of few-layer GaSe shows an intense blue shift of the excitation edge and expanded band gap compared with bulk material.",

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T1 - Synthesis and photoresponse of Large GaSe Atomic Layers

AU - Lei, Sidong

AU - Ge, Liehui

AU - Liu, Zheng

AU - Najmaei, Sina

AU - Shi, Gang

AU - You, Ge

AU - Lou, Jun

AU - Vajtai, Robert

AU - Ajayan, Pulickel M.

PY - 2013/6/12

Y1 - 2013/6/12

N2 - We report the direct growth of large, atomically thin GaSe single crystals on insulating substrates by vapor phase mass transport. A correlation is identified between the number of layers and a Raman shift and intensity change. We found obvious contrast of the resistance of the material in the dark and when illuminated with visible light. In the photoconductivity measurement we observed a low dark current. The on-off ratio measured with a 405 nm at 0.5 mW/mm2 light source is in the order of 103; the photoresponsivity is 17 mA/W, and the quantum efficiency is 5.2%, suggesting possibility for photodetector and sensor applications. The photocurrent spectrum of few-layer GaSe shows an intense blue shift of the excitation edge and expanded band gap compared with bulk material.

AB - We report the direct growth of large, atomically thin GaSe single crystals on insulating substrates by vapor phase mass transport. A correlation is identified between the number of layers and a Raman shift and intensity change. We found obvious contrast of the resistance of the material in the dark and when illuminated with visible light. In the photoconductivity measurement we observed a low dark current. The on-off ratio measured with a 405 nm at 0.5 mW/mm2 light source is in the order of 103; the photoresponsivity is 17 mA/W, and the quantum efficiency is 5.2%, suggesting possibility for photodetector and sensor applications. The photocurrent spectrum of few-layer GaSe shows an intense blue shift of the excitation edge and expanded band gap compared with bulk material.

KW - 2D materials

KW - atomically thin

KW - gallium selenide

KW - photoconductivity

KW - vapor phase growth

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Synthesis and photoresponse of Large GaSe Atomic Layers

Abstract

ASJC Scopus Subject Areas

Keywords

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