Graphene-Metamaterial Photodetectors for Integrated Infrared Sensing

Isaac J. Luxmoore; Peter Q. Liu; Penglei Li; Jérôme Faist; Geoffrey R. Nash

doi:10.1021/acsphotonics.6b00226

Graphene-Metamaterial Photodetectors for Integrated Infrared Sensing

Isaac J. Luxmoore
, Peter Q. Liu
, Penglei Li
, Jérôme Faist
, Geoffrey R. Nash

Department of Electrical Engineering

University at Buffalo

University of Exeter
Swiss Federal Institute of Technology Zurich

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

73 Scopus citations

Abstract

In this work we study metamaterial-enhanced graphene photodetectors operating in the mid-IR to THz. The detector element consists of a graphene ribbon embedded within a dual-metal split ring resonator, which acts like a cavity to enhance the absorption of electromagnetic radiation by the graphene ribbon, while the asymmetric metal contacts enable photothermoelectric detection. Detectors designed for the mid-IR demonstrate peak responsivity (referenced to total power) of ∼120 mV/W at 1500 cm^-1 and are employed in the spectroscopic evaluation of vibrational resonances, thus demonstrating a key step toward a platform for integrated surface-enhanced sensing.

Original language	English
Pages (from-to)	936-941
Number of pages	6
Journal	ACS Photonics
Volume	3
Issue number	6
DOIs	https://doi.org/10.1021/acsphotonics.6b00226
State	Published - Jun 15 2016

Keywords

SEIRA spectroscopy
biosensing
graphene plasmonics
infrared
metamaterial
photothermoelectric effect
terahertz

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10.1021/acsphotonics.6b00226

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title = "Graphene-Metamaterial Photodetectors for Integrated Infrared Sensing",

abstract = "In this work we study metamaterial-enhanced graphene photodetectors operating in the mid-IR to THz. The detector element consists of a graphene ribbon embedded within a dual-metal split ring resonator, which acts like a cavity to enhance the absorption of electromagnetic radiation by the graphene ribbon, while the asymmetric metal contacts enable photothermoelectric detection. Detectors designed for the mid-IR demonstrate peak responsivity (referenced to total power) of ∼120 mV/W at 1500 cm-1 and are employed in the spectroscopic evaluation of vibrational resonances, thus demonstrating a key step toward a platform for integrated surface-enhanced sensing.",

keywords = "SEIRA spectroscopy, biosensing, graphene plasmonics, infrared, metamaterial, photothermoelectric effect, terahertz",

author = "Luxmoore, \{Isaac J.\} and Liu, \{Peter Q.\} and Penglei Li and J{\'e}r{\^o}me Faist and Nash, \{Geoffrey R.\}",

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AU - Luxmoore, Isaac J.

AU - Liu, Peter Q.

AU - Li, Penglei

AU - Faist, Jérôme

AU - Nash, Geoffrey R.

PY - 2016/6/15

Y1 - 2016/6/15

N2 - In this work we study metamaterial-enhanced graphene photodetectors operating in the mid-IR to THz. The detector element consists of a graphene ribbon embedded within a dual-metal split ring resonator, which acts like a cavity to enhance the absorption of electromagnetic radiation by the graphene ribbon, while the asymmetric metal contacts enable photothermoelectric detection. Detectors designed for the mid-IR demonstrate peak responsivity (referenced to total power) of ∼120 mV/W at 1500 cm-1 and are employed in the spectroscopic evaluation of vibrational resonances, thus demonstrating a key step toward a platform for integrated surface-enhanced sensing.

AB - In this work we study metamaterial-enhanced graphene photodetectors operating in the mid-IR to THz. The detector element consists of a graphene ribbon embedded within a dual-metal split ring resonator, which acts like a cavity to enhance the absorption of electromagnetic radiation by the graphene ribbon, while the asymmetric metal contacts enable photothermoelectric detection. Detectors designed for the mid-IR demonstrate peak responsivity (referenced to total power) of ∼120 mV/W at 1500 cm-1 and are employed in the spectroscopic evaluation of vibrational resonances, thus demonstrating a key step toward a platform for integrated surface-enhanced sensing.

KW - SEIRA spectroscopy

KW - biosensing

KW - graphene plasmonics

KW - infrared

KW - metamaterial

KW - photothermoelectric effect

KW - terahertz

UR - https://www.scopus.com/pages/publications/84975057007

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EP - 941

JO - ACS Photonics

JF - ACS Photonics

IS - 6

ER -

Graphene-Metamaterial Photodetectors for Integrated Infrared Sensing

Abstract

Keywords

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