High sensitivity terahertz biosensor based on mode coupling of a graphene/bragg reflector hybrid structure

Yamei Liu; Qiwen Zheng; Hongxia Yuan; Shenping Wang; Keqiang Yin; Xiaoyu Dai; Xiao Zou; Leyong Jiang

doi:10.3390/bios11100377

High sensitivity terahertz biosensor based on mode coupling of a graphene/bragg reflector hybrid structure

Yamei Liu, Qiwen Zheng, Hongxia Yuan, Shenping Wang, Keqiang Yin, Xiaoyu Dai, Xiao Zou^*, Leyong Jiang^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

6 Citations (Scopus)

Abstract

In this work, a high-sensitivity terahertz (THz) biosensor is achieved by using a gra-phene/Bragg reflector hybrid structure. This high-sensitivity THz biosensor is developed from the sharp Fano resonance transmission peak created by coupling the graphene Tamm plasmons (GTPs) mode to a defect mode. It is found that the proposed THz biosensor is highly sensitive to the Fermi energy of graphene, as well as the thickness and refractive index of the sensing medium. Through specific parameter settings, the composite structure can achieve both a liquid biosensor and a gas biosensor. For the liquid biosensor, the maximum sensitivity of^{>1000 ° / RIU} is obtained by se-lecting appropriate parameters. We believe the proposed layered hybrid structure has the potential to fabricate graphene-based high-sensitivity biosensors.

Original language	English
Article number	377
Journal	Biosensors
Volume	11
Issue number	10
DOIs	https://doi.org/10.3390/bios11100377
Publication status	Published - Oct 2021
Externally published	Yes

Keywords

Graphene
Mode coupling
Tamm plasmons
Terahertz biosensor

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10.3390/bios11100377

Cite this

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title = "High sensitivity terahertz biosensor based on mode coupling of a graphene/bragg reflector hybrid structure",

abstract = "In this work, a high-sensitivity terahertz (THz) biosensor is achieved by using a gra-phene/Bragg reflector hybrid structure. This high-sensitivity THz biosensor is developed from the sharp Fano resonance transmission peak created by coupling the graphene Tamm plasmons (GTPs) mode to a defect mode. It is found that the proposed THz biosensor is highly sensitive to the Fermi energy of graphene, as well as the thickness and refractive index of the sensing medium. Through specific parameter settings, the composite structure can achieve both a liquid biosensor and a gas biosensor. For the liquid biosensor, the maximum sensitivity of>1000 ° / RIU is obtained by se-lecting appropriate parameters. We believe the proposed layered hybrid structure has the potential to fabricate graphene-based high-sensitivity biosensors.",

keywords = "Graphene, Mode coupling, Tamm plasmons, Terahertz biosensor",

author = "Yamei Liu and Qiwen Zheng and Hongxia Yuan and Shenping Wang and Keqiang Yin and Xiaoyu Dai and Xiao Zou and Leyong Jiang",

note = "Publisher Copyright: {\textcopyright} 2021 by the authors. Licensee MDPI, Basel, Switzerland.",

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doi = "10.3390/bios11100377",

language = "English",

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T1 - High sensitivity terahertz biosensor based on mode coupling of a graphene/bragg reflector hybrid structure

AU - Liu, Yamei

AU - Zheng, Qiwen

AU - Yuan, Hongxia

AU - Wang, Shenping

AU - Yin, Keqiang

AU - Dai, Xiaoyu

AU - Zou, Xiao

AU - Jiang, Leyong

PY - 2021/10

Y1 - 2021/10

N2 - In this work, a high-sensitivity terahertz (THz) biosensor is achieved by using a gra-phene/Bragg reflector hybrid structure. This high-sensitivity THz biosensor is developed from the sharp Fano resonance transmission peak created by coupling the graphene Tamm plasmons (GTPs) mode to a defect mode. It is found that the proposed THz biosensor is highly sensitive to the Fermi energy of graphene, as well as the thickness and refractive index of the sensing medium. Through specific parameter settings, the composite structure can achieve both a liquid biosensor and a gas biosensor. For the liquid biosensor, the maximum sensitivity of>1000 ° / RIU is obtained by se-lecting appropriate parameters. We believe the proposed layered hybrid structure has the potential to fabricate graphene-based high-sensitivity biosensors.

AB - In this work, a high-sensitivity terahertz (THz) biosensor is achieved by using a gra-phene/Bragg reflector hybrid structure. This high-sensitivity THz biosensor is developed from the sharp Fano resonance transmission peak created by coupling the graphene Tamm plasmons (GTPs) mode to a defect mode. It is found that the proposed THz biosensor is highly sensitive to the Fermi energy of graphene, as well as the thickness and refractive index of the sensing medium. Through specific parameter settings, the composite structure can achieve both a liquid biosensor and a gas biosensor. For the liquid biosensor, the maximum sensitivity of>1000 ° / RIU is obtained by se-lecting appropriate parameters. We believe the proposed layered hybrid structure has the potential to fabricate graphene-based high-sensitivity biosensors.

KW - Graphene

KW - Mode coupling

KW - Tamm plasmons

KW - Terahertz biosensor

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JO - Biosensors

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ER -

High sensitivity terahertz biosensor based on mode coupling of a graphene/bragg reflector hybrid structure

Abstract

Keywords

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