Graphene based surface plasmonics in microfiber multimode interferometer for gas sensing

Baicheng Yao; Yu Wu; Anqi Zhang; Yunjiang Rao; Zegao Wang; Yang Cheng; Yuan Gong; Weili Zhang; Yuanfu Chen; K. S. Chiang

doi:10.1364/sensors.2014.sew2c.4

Graphene based surface plasmonics in microfiber multimode interferometer for gas sensing

Baicheng Yao
, Yu Wu
, Anqi Zhang
, Yunjiang Rao^*
, Zegao Wang
, Yang Cheng
, Yuan Gong
, Weili Zhang
, Yuanfu Chen
, K. S. Chiang

^*Corresponding author for this work

Department of Electrical Engineering

Research output: Chapters, Conference Papers, Creative and Literary Works › RGC 32 - Refereed conference paper (with host publication) › peer-review

1 Citation (Scopus)

Abstract

Graphene based surface plasmonics in microfiber multimode interferometer is first proposed for realization of highly sensitive, temperature independent, and compact fiber-optic gas sensor. The achieved sensitivities are ~0.1ppm, ~0.2ppm for NH₃ gas and H₂O vapor, respectively. © 2014 OSA.

Original language	English
Title of host publication	Optical Sensors 2014
Publisher	Optical Society of America (OSA)
ISBN (Print)	9781557528209
DOIs	https://doi.org/10.1364/sensors.2014.sew2c.4
Publication status	Published - Jul 2014
Event	Advanced Photonics 2014 - Barcelona , Spain Duration: 27 Jul 2014 → 31 Jul 2014 http://www.opticsinfobase.org/browseconferences.cfm?meetingid=111&strYr=2014&acronym=SENSORS (unknown)

Conference

Conference	Advanced Photonics 2014
Place	Spain
City	Barcelona
Period	27/07/14 → 31/07/14
Internet address	http://www.opticsinfobase.org/browseconferences.cfm?meetingid=111&strYr=2014&acronym=SENSORS (unknown)

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@inproceedings{6e3bb42f4c634d00a5c8535a19def4b9,

title = "Graphene based surface plasmonics in microfiber multimode interferometer for gas sensing",

abstract = "Graphene based surface plasmonics in microfiber multimode interferometer is first proposed for realization of highly sensitive, temperature independent, and compact fiber-optic gas sensor. The achieved sensitivities are \textasciitilde{}0.1ppm, \textasciitilde{}0.2ppm for NH3 gas and H2O vapor, respectively. {\textcopyright} 2014 OSA.",

author = "Baicheng Yao and Yu Wu and Anqi Zhang and Yunjiang Rao and Zegao Wang and Yang Cheng and Yuan Gong and Weili Zhang and Yuanfu Chen and Chiang, \{K. S.\}",

year = "2014",

month = jul,

doi = "10.1364/sensors.2014.sew2c.4",

language = "English",

isbn = "9781557528209",

booktitle = "Optical Sensors 2014",

publisher = "Optical Society of America (OSA)",

note = "Advanced Photonics 2014 ; Conference date: 27-07-2014 Through 31-07-2014",

url = "http://www.opticsinfobase.org/browseconferences.cfm?meetingid=111\&strYr=2014\&acronym=SENSORS",

}

TY - GEN

T1 - Graphene based surface plasmonics in microfiber multimode interferometer for gas sensing

AU - Yao, Baicheng

AU - Wu, Yu

AU - Zhang, Anqi

AU - Rao, Yunjiang

AU - Wang, Zegao

AU - Cheng, Yang

AU - Gong, Yuan

AU - Zhang, Weili

AU - Chen, Yuanfu

AU - Chiang, K. S.

PY - 2014/7

Y1 - 2014/7

N2 - Graphene based surface plasmonics in microfiber multimode interferometer is first proposed for realization of highly sensitive, temperature independent, and compact fiber-optic gas sensor. The achieved sensitivities are ~0.1ppm, ~0.2ppm for NH3 gas and H2O vapor, respectively. © 2014 OSA.

AB - Graphene based surface plasmonics in microfiber multimode interferometer is first proposed for realization of highly sensitive, temperature independent, and compact fiber-optic gas sensor. The achieved sensitivities are ~0.1ppm, ~0.2ppm for NH3 gas and H2O vapor, respectively. © 2014 OSA.

UR - https://www.scopus.com/pages/publications/85085406522

UR - https://www.scopus.com/record/pubmetrics.uri?eid=2-s2.0-85085406522&origin=recordpage

U2 - 10.1364/sensors.2014.sew2c.4

DO - 10.1364/sensors.2014.sew2c.4

M3 - RGC 32 - Refereed conference paper (with host publication)

SN - 9781557528209

BT - Optical Sensors 2014

PB - Optical Society of America (OSA)

T2 - Advanced Photonics 2014

Y2 - 27 July 2014 through 31 July 2014

ER -

Graphene based surface plasmonics in microfiber multimode interferometer for gas sensing

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