Hybrid graphene tunneling photoconductor with interface engineering towards fast photoresponse and high responsivity
Optoelectronics: tunneling photodetectors break the trade-off between speed and responsivity Graphene-based photodetectors with an embedded MoS2 tunnel layer show remarkable responsivities, whilst still retaining fast response times. A team led by Jian-Bin Xu at the Chinese University of Hong Kong t...
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| Language: | English |
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Nature Publishing Group
2017-07-01
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| Series: | npj 2D Materials and Applications |
| Online Access: | https://doi.org/10.1038/s41699-017-0016-4 |
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doaj-ad84ada2008b4f7b9389277c76aa694a2021-04-02T16:13:46ZengNature Publishing Groupnpj 2D Materials and Applications2397-71322017-07-01111810.1038/s41699-017-0016-4Hybrid graphene tunneling photoconductor with interface engineering towards fast photoresponse and high responsivityLi Tao0Zefeng Chen1Xinming Li2Keyou Yan3Jian-Bin Xu4Department of Electronic Engineering, The Chinese University of Hong KongDepartment of Electronic Engineering, The Chinese University of Hong KongDepartment of Electronic Engineering, The Chinese University of Hong KongDepartment of Electronic Engineering, The Chinese University of Hong KongDepartment of Electronic Engineering, The Chinese University of Hong KongOptoelectronics: tunneling photodetectors break the trade-off between speed and responsivity Graphene-based photodetectors with an embedded MoS2 tunnel layer show remarkable responsivities, whilst still retaining fast response times. A team led by Jian-Bin Xu at the Chinese University of Hong Kong tackled the trade-off between speed and responsivity by intercalating two-dimensional MoS2 into a graphene photodetector. This results in the formation of a hybrid tunneling photoconductor, where silicon plays the role of optically active layer, whereas MoS2 serves as tunneling layer. The insertion of ultra-thin MoS2 enables fast transfer of the photo-excited carriers in silicon towards graphene, whilst also passivating surface states. This approach effectively bypasses the speed limitations caused by the long lifetime of trapped interfacial carriers, resulting in a remarkable 17 ns response time and a high, broadband responsivity up to 3 × 104 A/W.https://doi.org/10.1038/s41699-017-0016-4 |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Li Tao Zefeng Chen Xinming Li Keyou Yan Jian-Bin Xu |
| spellingShingle |
Li Tao Zefeng Chen Xinming Li Keyou Yan Jian-Bin Xu Hybrid graphene tunneling photoconductor with interface engineering towards fast photoresponse and high responsivity npj 2D Materials and Applications |
| author_facet |
Li Tao Zefeng Chen Xinming Li Keyou Yan Jian-Bin Xu |
| author_sort |
Li Tao |
| title |
Hybrid graphene tunneling photoconductor with interface engineering towards fast photoresponse and high responsivity |
| title_short |
Hybrid graphene tunneling photoconductor with interface engineering towards fast photoresponse and high responsivity |
| title_full |
Hybrid graphene tunneling photoconductor with interface engineering towards fast photoresponse and high responsivity |
| title_fullStr |
Hybrid graphene tunneling photoconductor with interface engineering towards fast photoresponse and high responsivity |
| title_full_unstemmed |
Hybrid graphene tunneling photoconductor with interface engineering towards fast photoresponse and high responsivity |
| title_sort |
hybrid graphene tunneling photoconductor with interface engineering towards fast photoresponse and high responsivity |
| publisher |
Nature Publishing Group |
| series |
npj 2D Materials and Applications |
| issn |
2397-7132 |
| publishDate |
2017-07-01 |
| description |
Optoelectronics: tunneling photodetectors break the trade-off between speed and responsivity Graphene-based photodetectors with an embedded MoS2 tunnel layer show remarkable responsivities, whilst still retaining fast response times. A team led by Jian-Bin Xu at the Chinese University of Hong Kong tackled the trade-off between speed and responsivity by intercalating two-dimensional MoS2 into a graphene photodetector. This results in the formation of a hybrid tunneling photoconductor, where silicon plays the role of optically active layer, whereas MoS2 serves as tunneling layer. The insertion of ultra-thin MoS2 enables fast transfer of the photo-excited carriers in silicon towards graphene, whilst also passivating surface states. This approach effectively bypasses the speed limitations caused by the long lifetime of trapped interfacial carriers, resulting in a remarkable 17 ns response time and a high, broadband responsivity up to 3 × 104 A/W. |
| url |
https://doi.org/10.1038/s41699-017-0016-4 |
| work_keys_str_mv |
AT litao hybridgraphenetunnelingphotoconductorwithinterfaceengineeringtowardsfastphotoresponseandhighresponsivity AT zefengchen hybridgraphenetunnelingphotoconductorwithinterfaceengineeringtowardsfastphotoresponseandhighresponsivity AT xinmingli hybridgraphenetunnelingphotoconductorwithinterfaceengineeringtowardsfastphotoresponseandhighresponsivity AT keyouyan hybridgraphenetunnelingphotoconductorwithinterfaceengineeringtowardsfastphotoresponseandhighresponsivity AT jianbinxu hybridgraphenetunnelingphotoconductorwithinterfaceengineeringtowardsfastphotoresponseandhighresponsivity |
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