Graphene oxide-deposited tilted fiber grating for ultrafast humidity sensing and human breath monitoring

Graphene oxide-deposited tilted fiber grating for ultrafast humidity sensing and human breath monitoring

•An optical fiber-based humidity sensor with ultrafast response is proposed by depositing GO onto a tilted fiber grating.•The experimental results show sensitivities of 18.5 pm/%RH and 0.02 dB/%RH in the dynamic range of 30%–80%RH.•The sensor is successfully applied to monitor human breathing cycles...

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Veröffentlicht in:Sensors and actuators. B, Chemical Chemical, 2019-08, Vol.293, p.336-341
Hauptverfasser: Jiang, Biqiang, Bi, Zhixuan, Hao, Zhen, Yuan, Qingchen, Feng, Dingyi, Zhou, Kaiming, Zhang, Lin, Gan, Xuetao, Zhao, Jianlin
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Sprache:eng
Schlagworte:
Breath tests
Cladding
Dielectric strength
Environmental monitoring
Graphene
Graphene oxide
Human breath monitoring
Humidity
Humidity sensor
Interlayers
Relative humidity
Sensors
Tilted fiber grating
Water chemistry
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container_end_page 341
container_issue
container_start_page 336
container_title Sensors and actuators. B, Chemical
container_volume 293
creator Jiang, Biqiang
Bi, Zhixuan
Hao, Zhen
Yuan, Qingchen
Feng, Dingyi
Zhou, Kaiming
Zhang, Lin
Gan, Xuetao
Zhao, Jianlin
description •An optical fiber-based humidity sensor with ultrafast response is proposed by depositing GO onto a tilted fiber grating.•The experimental results show sensitivities of 18.5 pm/%RH and 0.02 dB/%RH in the dynamic range of 30%–80%RH.•The sensor is successfully applied to monitor human breathing cycles with different breathing frequencies.•The sensor also possesses the merits of easy fabrication, low hysteresis, ultrafast response, and high repeatability. We propose and experimentally demonstrate a high-performance relative humidity (RH) sensor by depositing graphene oxide (GO) onto tilted fiber grating (TFG). The largely tilted grating planes of the employed TFG can induce a set of polarization-dependent cladding modes and strong evanescent field to couple with the humidity-dependent dielectric of GO layer. The GO-deposited TFG presents the response sensitivities of 18.5 pm/%RH and 0.027 dB/%RH in the range of 30%∼80%RH by tracking the wavelength and intensity of a specific cladding mode resonance. By monitoring the human breath with different frequencies, the sensor exhibits an ultrafast response within ∼42 ms due to the thin GO film and unimpeded permeation of water molecules through GO interlayer. The easy fabrication, low hysteresis, fast response, and high repeatability and reliability of the proposed RH sensor may enable many potential applications including pharmaceutical processing, human health and environmental monitoring.
doi_str_mv 10.1016/j.snb.2019.05.024
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We propose and experimentally demonstrate a high-performance relative humidity (RH) sensor by depositing graphene oxide (GO) onto tilted fiber grating (TFG). The largely tilted grating planes of the employed TFG can induce a set of polarization-dependent cladding modes and strong evanescent field to couple with the humidity-dependent dielectric of GO layer. The GO-deposited TFG presents the response sensitivities of 18.5 pm/%RH and 0.027 dB/%RH in the range of 30%∼80%RH by tracking the wavelength and intensity of a specific cladding mode resonance. By monitoring the human breath with different frequencies, the sensor exhibits an ultrafast response within ∼42 ms due to the thin GO film and unimpeded permeation of water molecules through GO interlayer. 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B, Chemical</title><description>•An optical fiber-based humidity sensor with ultrafast response is proposed by depositing GO onto a tilted fiber grating.•The experimental results show sensitivities of 18.5 pm/%RH and 0.02 dB/%RH in the dynamic range of 30%–80%RH.•The sensor is successfully applied to monitor human breathing cycles with different breathing frequencies.•The sensor also possesses the merits of easy fabrication, low hysteresis, ultrafast response, and high repeatability. We propose and experimentally demonstrate a high-performance relative humidity (RH) sensor by depositing graphene oxide (GO) onto tilted fiber grating (TFG). The largely tilted grating planes of the employed TFG can induce a set of polarization-dependent cladding modes and strong evanescent field to couple with the humidity-dependent dielectric of GO layer. The GO-deposited TFG presents the response sensitivities of 18.5 pm/%RH and 0.027 dB/%RH in the range of 30%∼80%RH by tracking the wavelength and intensity of a specific cladding mode resonance. By monitoring the human breath with different frequencies, the sensor exhibits an ultrafast response within ∼42 ms due to the thin GO film and unimpeded permeation of water molecules through GO interlayer. 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B, Chemical</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Jiang, Biqiang</au><au>Bi, Zhixuan</au><au>Hao, Zhen</au><au>Yuan, Qingchen</au><au>Feng, Dingyi</au><au>Zhou, Kaiming</au><au>Zhang, Lin</au><au>Gan, Xuetao</au><au>Zhao, Jianlin</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Graphene oxide-deposited tilted fiber grating for ultrafast humidity sensing and human breath monitoring</atitle><jtitle>Sensors and actuators. 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The largely tilted grating planes of the employed TFG can induce a set of polarization-dependent cladding modes and strong evanescent field to couple with the humidity-dependent dielectric of GO layer. The GO-deposited TFG presents the response sensitivities of 18.5 pm/%RH and 0.027 dB/%RH in the range of 30%∼80%RH by tracking the wavelength and intensity of a specific cladding mode resonance. By monitoring the human breath with different frequencies, the sensor exhibits an ultrafast response within ∼42 ms due to the thin GO film and unimpeded permeation of water molecules through GO interlayer. The easy fabrication, low hysteresis, fast response, and high repeatability and reliability of the proposed RH sensor may enable many potential applications including pharmaceutical processing, human health and environmental monitoring.</abstract><cop>Lausanne</cop><pub>Elsevier B.V</pub><doi>10.1016/j.snb.2019.05.024</doi><tpages>6</tpages><oa>free_for_read</oa></addata></record>
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subjects Breath tests
Cladding
Dielectric strength
Environmental monitoring
Graphene
Graphene oxide
Human breath monitoring
Humidity
Humidity sensor
Interlayers
Relative humidity
Sensors
Tilted fiber grating
Water chemistry
title Graphene oxide-deposited tilted fiber grating for ultrafast humidity sensing and human breath monitoring
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