High sensitivity plasmonic sensor using hybrid structure of graphene stripe combined with gold gap-ring

Zhiyuan Du; Bin Hu; Planchon Cyril; Juan Liu; Yongtian Wang

doi:10.1088/2053-1591/aa8d3e

High sensitivity plasmonic sensor using hybrid structure of graphene stripe combined with gold gap-ring

Zhiyuan Du, Bin Hu, Planchon Cyril, Juan Liu, Yongtian Wang

School of Optics and Photonics

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

2 Citations (Scopus)

Abstract

Local surface plasmonic resonance (LSPR) produced by metallic nano-structures is often sensitive to the refractive index of the surrounding media and can be applied for sensing. However, it often suffers from large line width caused by large plasmonic radiative damping, especially in the infrared (IR) frequencies, which reduces the sensitivity. Here we propose a hybrid structure consists of a graphene stripe and a gold gap-ring at short-IR frequencies (1-3 m). Due to the low loss and high plasmonic confinement of graphene, LSPR line width of 6 nm is obtained. In addition, due to the strong coupling of the gold gap-ring with graphene stripe, the intensity of graphene LSPR is enhanced by 100 times. Simulation results show that the sensitivity of the sensor is ∼1000 nm/RIU (refractive index unit) and the figure of merit (FoM) can reach up to 383.

Original language	English
Article number	105013
Journal	Materials Research Express
Volume	4
Issue number	10
DOIs	https://doi.org/10.1088/2053-1591/aa8d3e
Publication status	Published - Oct 2017

Keywords

biological sensing and sensors
nanomaterials
plasmonics
subwavelength structures

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10.1088/2053-1591/aa8d3e

Cite this

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title = "High sensitivity plasmonic sensor using hybrid structure of graphene stripe combined with gold gap-ring",

abstract = "Local surface plasmonic resonance (LSPR) produced by metallic nano-structures is often sensitive to the refractive index of the surrounding media and can be applied for sensing. However, it often suffers from large line width caused by large plasmonic radiative damping, especially in the infrared (IR) frequencies, which reduces the sensitivity. Here we propose a hybrid structure consists of a graphene stripe and a gold gap-ring at short-IR frequencies (1-3 m). Due to the low loss and high plasmonic confinement of graphene, LSPR line width of 6 nm is obtained. In addition, due to the strong coupling of the gold gap-ring with graphene stripe, the intensity of graphene LSPR is enhanced by 100 times. Simulation results show that the sensitivity of the sensor is ∼1000 nm/RIU (refractive index unit) and the figure of merit (FoM) can reach up to 383.",

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author = "Zhiyuan Du and Bin Hu and Planchon Cyril and Juan Liu and Yongtian Wang",

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T1 - High sensitivity plasmonic sensor using hybrid structure of graphene stripe combined with gold gap-ring

AU - Du, Zhiyuan

AU - Hu, Bin

AU - Cyril, Planchon

AU - Liu, Juan

AU - Wang, Yongtian

PY - 2017/10

Y1 - 2017/10

N2 - Local surface plasmonic resonance (LSPR) produced by metallic nano-structures is often sensitive to the refractive index of the surrounding media and can be applied for sensing. However, it often suffers from large line width caused by large plasmonic radiative damping, especially in the infrared (IR) frequencies, which reduces the sensitivity. Here we propose a hybrid structure consists of a graphene stripe and a gold gap-ring at short-IR frequencies (1-3 m). Due to the low loss and high plasmonic confinement of graphene, LSPR line width of 6 nm is obtained. In addition, due to the strong coupling of the gold gap-ring with graphene stripe, the intensity of graphene LSPR is enhanced by 100 times. Simulation results show that the sensitivity of the sensor is ∼1000 nm/RIU (refractive index unit) and the figure of merit (FoM) can reach up to 383.

AB - Local surface plasmonic resonance (LSPR) produced by metallic nano-structures is often sensitive to the refractive index of the surrounding media and can be applied for sensing. However, it often suffers from large line width caused by large plasmonic radiative damping, especially in the infrared (IR) frequencies, which reduces the sensitivity. Here we propose a hybrid structure consists of a graphene stripe and a gold gap-ring at short-IR frequencies (1-3 m). Due to the low loss and high plasmonic confinement of graphene, LSPR line width of 6 nm is obtained. In addition, due to the strong coupling of the gold gap-ring with graphene stripe, the intensity of graphene LSPR is enhanced by 100 times. Simulation results show that the sensitivity of the sensor is ∼1000 nm/RIU (refractive index unit) and the figure of merit (FoM) can reach up to 383.

KW - biological sensing and sensors

KW - nanomaterials

KW - plasmonics

KW - subwavelength structures

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High sensitivity plasmonic sensor using hybrid structure of graphene stripe combined with gold gap-ring

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