Toluene optical fibre sensor based on air microcavity in PDMS

•Air microcavity in PDMS placed at the end of an optical fibre is proposed.•The length of microcavity depends on amount of organic volatile compounds in PDMS.•Toluene vapour concentration in air in the range up to saturation is measured.•Sensitivity better than 0.15nm/g.m−3 in investigated range in...

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Bibliographic Details
Published in:Optical fiber technology 2017-03, Vol.34, p.70-73
Main Authors: Kacik, Daniel, Martincek, Ivan
Format: Article
Language:English
Subjects:
Fabry-Perot interferometer
Optical fibre sensor
Organic volatile compound
PDMS
Toluene
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Summary:•Air microcavity in PDMS placed at the end of an optical fibre is proposed.•The length of microcavity depends on amount of organic volatile compounds in PDMS.•Toluene vapour concentration in air in the range up to saturation is measured.•Sensitivity better than 0.15nm/g.m−3 in investigated range in time 5s is achieved. We prepared and demonstrated a compact, simple-to-fabricate, air microcavity in polydimethylsiloxane (PDMS) placed at the end of a single-mode optical fibre. This microcavity creates a Fabry-Perot interferometer sensor able to measure concentrations of toluene vapour in air. Operation of the sensor is provided by diffusion of the toluene vapour to the PDMS, and the consequent extension of length d of the air microcavity in PDMS. The sensor response for the presence of vapours is fast and occurs within a few seconds. By using the prepared sensor toluene vapour concentration in air can be measured in the range from about 0.833g.m−3 to saturation, with better sensitivity than 0.15nm/g.m−3 up to maximal sensitivity 1.4nm/g.m−3 at around concentration 100g.m−3 in time 5s.
ISSN:1068-5200
1095-9912
DOI:10.1016/j.yofte.2017.01.006