Strong tunable absorption enhancement in graphene using dielectric-metal core-shell resonators

Strong tunable absorption enhancement in graphene using dielectric-metal core-shell resonators

Abstract We theoretically investigate light absorption by a graphene monolayer that is coated on the outside of dielectric-metal core-shell resonators (DMCSRs). We demonstrate that light absorption of graphene can be greatly enhanced in such multi-layered core-shell architectures as a result of the...

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Main Authors: Mingjie Wan, Yan Li, Jiawei Chen, Wenyang Wu, Zhuo Chen, Zhenlin Wang, Huitian Wang
Format: Article
Language:English
Published: Nature Publishing Group 2017-02-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-017-00056-4
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spelling doaj-cb1cfab96dce4093854b69807af5f2992020-12-08T00:10:20ZengNature Publishing GroupScientific Reports2045-23222017-02-017111010.1038/s41598-017-00056-4Strong tunable absorption enhancement in graphene using dielectric-metal core-shell resonatorsMingjie Wan0Yan Li1Jiawei Chen2Wenyang Wu3Zhuo Chen4Zhenlin Wang5Huitian Wang6School of Physics and National Laboratory of Solid State Microstructures, Nanjing UniversityDepartment of Mathematics and Physics, Zhengzhou Institute of Aeronautical Industry ManagementSchool of Physics and National Laboratory of Solid State Microstructures, Nanjing UniversitySchool of Physics and National Laboratory of Solid State Microstructures, Nanjing UniversitySchool of Physics and National Laboratory of Solid State Microstructures, Nanjing UniversitySchool of Physics and National Laboratory of Solid State Microstructures, Nanjing UniversitySchool of Physics and National Laboratory of Solid State Microstructures, Nanjing UniversityAbstract We theoretically investigate light absorption by a graphene monolayer that is coated on the outside of dielectric-metal core-shell resonators (DMCSRs). We demonstrate that light absorption of graphene can be greatly enhanced in such multi-layered core-shell architectures as a result of the excitation of the hybridized bonding plasmon resonance supported by the DMCSRs. We also demonstrate that the absorption enhancement in graphene can be easily tuned over a wide range from the visible to the near-infrared, and particularly the enhancement factor can be optimally maximized at any selective wavelength, by simultaneously varying the dielectric core size and the metal shell thickness. Our results suggest that the graphene-wrapped DMCSRs with strong and highly wavelength-tunable absorption enhancement in graphene could be attractive candidates for applications in graphene-based photodetectors and image sensors.https://doi.org/10.1038/s41598-017-00056-4
collection DOAJ
language English
format Article
sources DOAJ
author Mingjie Wan
Yan Li
Jiawei Chen
Wenyang Wu
Zhuo Chen
Zhenlin Wang
Huitian Wang
spellingShingle Mingjie Wan
Yan Li
Jiawei Chen
Wenyang Wu
Zhuo Chen
Zhenlin Wang
Huitian Wang
Strong tunable absorption enhancement in graphene using dielectric-metal core-shell resonators
Scientific Reports
author_facet Mingjie Wan
Yan Li
Jiawei Chen
Wenyang Wu
Zhuo Chen
Zhenlin Wang
Huitian Wang
author_sort Mingjie Wan
title Strong tunable absorption enhancement in graphene using dielectric-metal core-shell resonators
title_short Strong tunable absorption enhancement in graphene using dielectric-metal core-shell resonators
title_full Strong tunable absorption enhancement in graphene using dielectric-metal core-shell resonators
title_fullStr Strong tunable absorption enhancement in graphene using dielectric-metal core-shell resonators
title_full_unstemmed Strong tunable absorption enhancement in graphene using dielectric-metal core-shell resonators
title_sort strong tunable absorption enhancement in graphene using dielectric-metal core-shell resonators
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2017-02-01
description Abstract We theoretically investigate light absorption by a graphene monolayer that is coated on the outside of dielectric-metal core-shell resonators (DMCSRs). We demonstrate that light absorption of graphene can be greatly enhanced in such multi-layered core-shell architectures as a result of the excitation of the hybridized bonding plasmon resonance supported by the DMCSRs. We also demonstrate that the absorption enhancement in graphene can be easily tuned over a wide range from the visible to the near-infrared, and particularly the enhancement factor can be optimally maximized at any selective wavelength, by simultaneously varying the dielectric core size and the metal shell thickness. Our results suggest that the graphene-wrapped DMCSRs with strong and highly wavelength-tunable absorption enhancement in graphene could be attractive candidates for applications in graphene-based photodetectors and image sensors.
url https://doi.org/10.1038/s41598-017-00056-4
work_keys_str_mv AT mingjiewan strongtunableabsorptionenhancementingrapheneusingdielectricmetalcoreshellresonators
AT yanli strongtunableabsorptionenhancementingrapheneusingdielectricmetalcoreshellresonators
AT jiaweichen strongtunableabsorptionenhancementingrapheneusingdielectricmetalcoreshellresonators
AT wenyangwu strongtunableabsorptionenhancementingrapheneusingdielectricmetalcoreshellresonators
AT zhuochen strongtunableabsorptionenhancementingrapheneusingdielectricmetalcoreshellresonators
AT zhenlinwang strongtunableabsorptionenhancementingrapheneusingdielectricmetalcoreshellresonators
AT huitianwang strongtunableabsorptionenhancementingrapheneusingdielectricmetalcoreshellresonators
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