A Fiber Sensor for VOC Gas Detection Based on Modulated Aggregation of Fluorescence Indicator

Volatile organic compounds (VOC) are the main source of indoor pollution. Inhalation of excess VOC gas will cause respiratory system damage. Therefore, VOC gas detection is essential for environment monitoring. In this article, an optical fiber device for rapid detection of VOC gas was proposed. Rho...

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Veröffentlicht in:IEEE sensors journal 2024-05, Vol.24 (10), p.16162-16169
Hauptverfasser: Feng, Yuan, Chen, Huifang, Broderick, Neil, Hong, Simin, Zheng, Zhihan, Xu, Ben, Zhao, Chunliu, Kang, Juan
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container_end_page 16169
container_issue 10
container_start_page 16162
container_title IEEE sensors journal
container_volume 24
creator Feng, Yuan
Chen, Huifang
Broderick, Neil
Hong, Simin
Zheng, Zhihan
Xu, Ben
Zhao, Chunliu
Kang, Juan
description Volatile organic compounds (VOC) are the main source of indoor pollution. Inhalation of excess VOC gas will cause respiratory system damage. Therefore, VOC gas detection is essential for environment monitoring. In this article, an optical fiber device for rapid detection of VOC gas was proposed. Rhodamine 6G (R6G) was taken as the fluorescence indicator. The VOC gas sensor was designed for the modulation of aggregation-caused quenching of R6G. The sensing device was fabricated with three simple steps: in the first step, a multimode fiber was tapered; in the second step, the hydrogel was coated on the tapered fiber tip; and in the last step, aggregated R6G was loaded in the hydrogel. When the senor was probed into a VOC gas chamber, the gas molecules penetrated into the hydrogel and deaggregated the R6G dimer, and then, the fluorescence of R6G was strengthened. With this spectrum change, the concentration of VOC gas could be obtained. Compared with other fiber devices for VOC gas detections, the proposed sensor has the advantages of single-end, low cost, simple preparation, fast response, and large detection range, which means a great potential for in situ detecting applications.
doi_str_mv 10.1109/JSEN.2024.3383953
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Inhalation of excess VOC gas will cause respiratory system damage. Therefore, VOC gas detection is essential for environment monitoring. In this article, an optical fiber device for rapid detection of VOC gas was proposed. Rhodamine 6G (R6G) was taken as the fluorescence indicator. The VOC gas sensor was designed for the modulation of aggregation-caused quenching of R6G. The sensing device was fabricated with three simple steps: in the first step, a multimode fiber was tapered; in the second step, the hydrogel was coated on the tapered fiber tip; and in the last step, aggregated R6G was loaded in the hydrogel. When the senor was probed into a VOC gas chamber, the gas molecules penetrated into the hydrogel and deaggregated the R6G dimer, and then, the fluorescence of R6G was strengthened. With this spectrum change, the concentration of VOC gas could be obtained. 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Inhalation of excess VOC gas will cause respiratory system damage. Therefore, VOC gas detection is essential for environment monitoring. In this article, an optical fiber device for rapid detection of VOC gas was proposed. Rhodamine 6G (R6G) was taken as the fluorescence indicator. The VOC gas sensor was designed for the modulation of aggregation-caused quenching of R6G. The sensing device was fabricated with three simple steps: in the first step, a multimode fiber was tapered; in the second step, the hydrogel was coated on the tapered fiber tip; and in the last step, aggregated R6G was loaded in the hydrogel. When the senor was probed into a VOC gas chamber, the gas molecules penetrated into the hydrogel and deaggregated the R6G dimer, and then, the fluorescence of R6G was strengthened. With this spectrum change, the concentration of VOC gas could be obtained. 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subjects Aggregation-caused quenching
Damage detection
Ethanol
fiber sensor
Fluorescence
Fluorescent indicators
Gas detectors
Gas sensors
hydrogel
Hydrogels
Optical fiber couplers
Optical fiber sensors
Optical fibers
Respiration
Respiratory system
Rhodamine 6G
Sensors
VOCs
volatile organic compound (VOC) gas
Volatile organic compounds
title A Fiber Sensor for VOC Gas Detection Based on Modulated Aggregation of Fluorescence Indicator
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