High-sensitivity refractive index sensors using coherent perfect absorption on graphene in the vis-NIR region
High-sensitivity refractive index sensors using coherent perfect absorption on graphene in the vis-NIR region
Plasmonic structures with sophisticated nanofabrication have revolutionized the ability to trap light on the nanoscale and enable high-sensitivity refractive index sensing. Previous theoretical research has indicated that the sensitivity and figure of merit around the wavelength of 1µm for a plasmonic sensing system can be up to 13,000 nm/RIU and 138, respectively. In order to improve the sensing performance, we propose a graphene-based non-plasmonic sensor with the sensitivity over 440,000nm/RIU at the wavelength of 1µm, which is 33 times more than the theoretical result of plasmonic sensors. Our graphene sensor is a nanofabrication-free design with perfect light confinement within a monolayer of graphene. Meanwhile, its figure of merit is up to the scale of thousands, which is also much higher than plasmonic sensors. Our scheme uses a simple dielectric structure with a monolayer of graphene and shows a great potential for low-cost sensing with high performance.
3231-3237
Li, C.
1a2e8dd2-5352-4f83-8a29-3468d5956030
Qiu, J.
45a8b2f4-9b82-447c-8bcf-7c01238ab774
Ou, J.-Y.
3fb703e3-b222-46d2-b4ee-75f296d9d64d
Liu, Q.H.
94c7542a-4b0d-42c2-a110-e3bdb05fb3f0
Zhu, J.
0ee69f48-3a5f-479d-8d91-a693d9238a0a
29 April 2019
Li, C.
1a2e8dd2-5352-4f83-8a29-3468d5956030
Qiu, J.
45a8b2f4-9b82-447c-8bcf-7c01238ab774
Ou, J.-Y.
3fb703e3-b222-46d2-b4ee-75f296d9d64d
Liu, Q.H.
94c7542a-4b0d-42c2-a110-e3bdb05fb3f0
Zhu, J.
0ee69f48-3a5f-479d-8d91-a693d9238a0a
Li, C., Qiu, J., Ou, J.-Y., Liu, Q.H. and Zhu, J.
(2019)
High-sensitivity refractive index sensors using coherent perfect absorption on graphene in the vis-NIR region.
ACS Applied Nano Materials, 2 (5), .
(doi:10.1021/acsanm.9b00523).
Abstract
Plasmonic structures with sophisticated nanofabrication have revolutionized the ability to trap light on the nanoscale and enable high-sensitivity refractive index sensing. Previous theoretical research has indicated that the sensitivity and figure of merit around the wavelength of 1µm for a plasmonic sensing system can be up to 13,000 nm/RIU and 138, respectively. In order to improve the sensing performance, we propose a graphene-based non-plasmonic sensor with the sensitivity over 440,000nm/RIU at the wavelength of 1µm, which is 33 times more than the theoretical result of plasmonic sensors. Our graphene sensor is a nanofabrication-free design with perfect light confinement within a monolayer of graphene. Meanwhile, its figure of merit is up to the scale of thousands, which is also much higher than plasmonic sensors. Our scheme uses a simple dielectric structure with a monolayer of graphene and shows a great potential for low-cost sensing with high performance.
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Accepted/In Press date: 29 April 2019
Published date: 29 April 2019
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Local EPrints ID: 441763
URI: http://eprints.soton.ac.uk/id/eprint/441763
PURE UUID: 1aa9cd81-4564-40d6-b069-ab0ee2b5418c
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Date deposited: 25 Jun 2020 16:48
Last modified: 17 Mar 2024 03:25
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Author:
C. Li
Author:
J. Qiu
Author:
J.-Y. Ou
Author:
Q.H. Liu
Author:
J. Zhu
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