Dichroic spin–valley photocurrent in monolayer molybdenum disulphide

The aim of valleytronics is to exploit confinement of charge carriers in local valleys of the energy bands of semiconductors as an additional degree of freedom in optoelectronic devices. Thanks to strong direct excitonic transitions in spin-coupled K valleys, monolayer molybdenum disulphide is a rap...

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Published inNature communications Vol. 6; no. 1; p. 7636
Main Authors Eginligil, Mustafa, Cao, Bingchen, Wang, Zilong, Shen, Xiaonan, Cong, Chunxiao, Shang, Jingzhi, Soci, Cesare, Yu, Ting
Format Journal Article
LanguageEnglish
Published London Nature Publishing Group UK 02.07.2015
Nature Publishing Group
Nature Pub. Group
Subjects
639/301/119/1000
639/766/1130/2798
639/766/25
Humanities and Social Sciences
Molybdenum
multidisciplinary
Science
Science (multidisciplinary)
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Abstract The aim of valleytronics is to exploit confinement of charge carriers in local valleys of the energy bands of semiconductors as an additional degree of freedom in optoelectronic devices. Thanks to strong direct excitonic transitions in spin-coupled K valleys, monolayer molybdenum disulphide is a rapidly emerging valleytronic material, with high valley polarization in photoluminescence. Here we elucidate the excitonic physics of this material by light helicity-dependent photocurrent studies of phototransistors. We demonstrate that large photocurrent dichroism (up to 60%) can also be achieved in high-quality molybdenum disulphide monolayers grown by chemical vapour deposition, due to the circular photogalvanic effect on resonant excitations. This opens up new opportunities for valleytonic applications in which selective control of spin–valley-coupled photocurrents can be used to implement polarization-sensitive light-detection schemes or integrated spintronic devices, as well as biochemical sensors operating at visible frequencies. Valleytronic materials allow for band structure minima to be exploited in electronic transport devices in addition to charge and spin. Here, the authors demonstrate selective control of spin–valley-coupled photocurrents via circularly polarized light in molybdenum disulphide grown by chemical vapour deposition.
AbstractList The aim of valleytronics is to exploit confinement of charge carriers in local valleys of the energy bands of semiconductors as an additional degree of freedom in optoelectronic devices. Thanks to strong direct excitonic transitions in spin-coupled K valleys, monolayer molybdenum disulphide is a rapidly emerging valleytronic material, with high valley polarization in photoluminescence. Here we elucidate the excitonic physics of this material by light helicity-dependent photocurrent studies of phototransistors. We demonstrate that large photocurrent dichroism (up to 60%) can also be achieved in high-quality molybdenum disulphide monolayers grown by chemical vapour deposition, due to the circular photogalvanic effect on resonant excitations. This opens up new opportunities for valleytonic applications in which selective control of spin-valley-coupled photocurrents can be used to implement polarization-sensitive light-detection schemes or integrated spintronic devices, as well as biochemical sensors operating at visible frequencies.
The aim of valleytronics is to exploit confinement of charge carriers in local valleys of the energy bands of semiconductors as an additional degree of freedom in optoelectronic devices. Thanks to strong direct excitonic transitions in spin-coupled K valleys, monolayer molybdenum disulphide is a rapidly emerging valleytronic material, with high valley polarization in photoluminescence. Here we elucidate the excitonic physics of this material by light helicity-dependent photocurrent studies of phototransistors. We demonstrate that large photocurrent dichroism (up to 60%) can also be achieved in high-quality molybdenum disulphide monolayers grown by chemical vapour deposition, due to the circular photogalvanic effect on resonant excitations. This opens up new opportunities for valleytonic applications in which selective control of spin–valley-coupled photocurrents can be used to implement polarization-sensitive light-detection schemes or integrated spintronic devices, as well as biochemical sensors operating at visible frequencies.
The aim of valleytronics is to exploit confinement of charge carriers in local valleys of the energy bands of semiconductors as an additional degree of freedom in optoelectronic devices. Thanks to strong direct excitonic transitions in spin-coupled K valleys, monolayer molybdenum disulphide is a rapidly emerging valleytronic material, with high valley polarization in photoluminescence. Here we elucidate the excitonic physics of this material by light helicity-dependent photocurrent studies of phototransistors. We demonstrate that large photocurrent dichroism (up to 60%) can also be achieved in high-quality molybdenum disulphide monolayers grown by chemical vapour deposition, due to the circular photogalvanic effect on resonant excitations. This opens up new opportunities for valleytonic applications in which selective control of spin–valley-coupled photocurrents can be used to implement polarization-sensitive light-detection schemes or integrated spintronic devices, as well as biochemical sensors operating at visible frequencies. Valleytronic materials allow for band structure minima to be exploited in electronic transport devices in addition to charge and spin. Here, the authors demonstrate selective control of spin–valley-coupled photocurrents via circularly polarized light in molybdenum disulphide grown by chemical vapour deposition.
ArticleNumber 7636
Author Cong, Chunxiao
Wang, Zilong
Soci, Cesare
Eginligil, Mustafa
Shen, Xiaonan
Cao, Bingchen
Shang, Jingzhi
Yu, Ting
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  givenname: Bingchen
  surname: Cao
  fullname: Cao, Bingchen
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  givenname: Zilong
  surname: Wang
  fullname: Wang, Zilong
  organization: School of Physical and Mathematical Sciences, Physics and Applied Physics, Nanyang Technological University, Centre for Disruptive Photonic Technologies, Nanyang Technological University
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  surname: Shen
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  organization: School of Physical and Mathematical Sciences, Physics and Applied Physics, Nanyang Technological University
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  orcidid: 0000-0002-0113-2895
  surname: Yu
  fullname: Yu, Ting
  email: yuting@ntu.edu.sg
  organization: School of Physical and Mathematical Sciences, Physics and Applied Physics, Nanyang Technological University, Department of Physics, Faculty of Science, National University of Singapore, Centre for Advanced 2D Materials and Graphene Research Centre, National University of Singapore
BackLink https://www.ncbi.nlm.nih.gov/pubmed/26134143$$D View this record in MEDLINE/PubMed
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Snippet The aim of valleytronics is to exploit confinement of charge carriers in local valleys of the energy bands of semiconductors as an additional degree of freedom...
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Title Dichroic spin–valley photocurrent in monolayer molybdenum disulphide
URI https://link.springer.com/article/10.1038/ncomms8636
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Volume 6
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