Infrared Plasmonic Sensing with Anisotropic Two-Dimensional Material Borophene

Borophene, a new member of the two-dimensional material family, has been found to support surface plasmon polaritons in visible and infrared regimes, which can be integrated into various optoelectronic and nanophotonic devices. To further explore the potential plasmonic applications of borophene, we...

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Published in	Nanomaterials (Basel, Switzerland) Vol. 11; no. 5; p. 1165
Main Authors	Zhang, Jingjing, Zhang, Zhaojian, Song, Xiaoxian, Zhang, Haiting, Yang, Junbo
Format	Journal Article
Language	English
Published	Switzerland MDPI AG 29.04.2021 MDPI
Subjects	Borophene Figure of merit Graphene Infrared detectors Optoelectronic devices Plasmonics Polaritons Refractivity Ribbon arrays Sensor arrays Sensors Spectral sensitivity Two dimensional materials plasmonics borophene sensors
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Abstract	Borophene, a new member of the two-dimensional material family, has been found to support surface plasmon polaritons in visible and infrared regimes, which can be integrated into various optoelectronic and nanophotonic devices. To further explore the potential plasmonic applications of borophene, we propose an infrared plasmonic sensor based on the borophene ribbon array. The nanostructured borophene can support localized surface plasmon resonances, which can sense the local refractive index of the environment via spectral response. By analytical and numerical calculation, we investigate the influences of geometric as well as material parameters on the sensing performance of the proposed sensor in detail. The results show how to tune and optimize the sensitivity and figure of merit of the proposed structure and reveal that the borophene sensor possesses comparable sensing performance with conventional plasmonic sensors. This work provides the route to design a borophene plasmonic sensor with high performance and can be applied in next-generation point-of-care diagnostic devices.
AbstractList	Borophene, a new member of the two-dimensional material family, has been found to support surface plasmon polaritons in visible and infrared regimes, which can be integrated into various optoelectronic and nanophotonic devices. To further explore the potential plasmonic applications of borophene, we propose an infrared plasmonic sensor based on the borophene ribbon array. The nanostructured borophene can support localized surface plasmon resonances, which can sense the local refractive index of the environment via spectral response. By analytical and numerical calculation, we investigate the influences of geometric as well as material parameters on the sensing performance of the proposed sensor in detail. The results show how to tune and optimize the sensitivity and figure of merit of the proposed structure and reveal that the borophene sensor possesses comparable sensing performance with conventional plasmonic sensors. This work provides the route to design a borophene plasmonic sensor with high performance and can be applied in next-generation point-of-care diagnostic devices. Borophene, a new member of the two-dimensional material family, has been found to support surface plasmon polaritons in visible and infrared regimes, which can be integrated into various optoelectronic and nanophotonic devices. To further explore the potential plasmonic applications of borophene, we propose an infrared plasmonic sensor based on the borophene ribbon array. The nanostructured borophene can support localized surface plasmon resonances, which can sense the local refractive index of the environment via spectral response. By analytical and numerical calculation, we investigate the influences of geometric as well as material parameters on the sensing performance of the proposed sensor in detail. The results show how to tune and optimize the sensitivity and figure of merit of the proposed structure and reveal that the borophene sensor possesses comparable sensing performance with conventional plasmonic sensors. This work provides the route to design a borophene plasmonic sensor with high performance and can be applied in next-generation point-of-care diagnostic devices.Borophene, a new member of the two-dimensional material family, has been found to support surface plasmon polaritons in visible and infrared regimes, which can be integrated into various optoelectronic and nanophotonic devices. To further explore the potential plasmonic applications of borophene, we propose an infrared plasmonic sensor based on the borophene ribbon array. The nanostructured borophene can support localized surface plasmon resonances, which can sense the local refractive index of the environment via spectral response. By analytical and numerical calculation, we investigate the influences of geometric as well as material parameters on the sensing performance of the proposed sensor in detail. The results show how to tune and optimize the sensitivity and figure of merit of the proposed structure and reveal that the borophene sensor possesses comparable sensing performance with conventional plasmonic sensors. This work provides the route to design a borophene plasmonic sensor with high performance and can be applied in next-generation point-of-care diagnostic devices.
Author	Zhang, Jingjing Song, Xiaoxian Zhang, Zhaojian Yang, Junbo Zhang, Haiting
AuthorAffiliation	2 Department of Physics, College of Liberal Arts and Sciences, National University of Defense Technology, Changsha 410073, China; yangjunbo@nudt.edu.cn 1 Institute of Mirco/Nano Optoelectronic and Terahertz Technology, Jiangsu University, Zhenjiang 212013, China; zhangjingjing13@nudt.edu.cn (J.Z.); songxiaoxian@ujs.edu.cn (X.S.); zhanghaiting@ujs.edu.cn (H.Z.) 3 Center of Material Science, National University of Defense Technology, Changsha 410073, China
AuthorAffiliation_xml	– name: 2 Department of Physics, College of Liberal Arts and Sciences, National University of Defense Technology, Changsha 410073, China; yangjunbo@nudt.edu.cn – name: 3 Center of Material Science, National University of Defense Technology, Changsha 410073, China – name: 1 Institute of Mirco/Nano Optoelectronic and Terahertz Technology, Jiangsu University, Zhenjiang 212013, China; zhangjingjing13@nudt.edu.cn (J.Z.); songxiaoxian@ujs.edu.cn (X.S.); zhanghaiting@ujs.edu.cn (H.Z.)
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Snippet	Borophene, a new member of the two-dimensional material family, has been found to support surface plasmon polaritons in visible and infrared regimes, which can...
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SubjectTerms	Borophene Figure of merit Graphene Infrared detectors Optoelectronic devices Plasmonics Polaritons Refractivity Ribbon arrays Sensor arrays Sensors Spectral sensitivity Two dimensional materials
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Title	Infrared Plasmonic Sensing with Anisotropic Two-Dimensional Material Borophene
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