Archivio Istituzionale della RicercaWe present a low-cost, handheld plastic optical fiber (POF) sensor for hydrogen sulfide (H2S) detection integrated onto a smartphone. The sensor uses smartphone flashlight as a source and camera as a pixel-based intensity detector. The POF is interconnected to the smartphone with a 3-D-printed connector on both source/detector sides. The sensing mechanism is embedded in the fiber link, making the system an all-fiber smartphone architecture. A mobile application handles data acquisition on the Android operative system. The sensor is functionalized for H2S detection through silver deposition on the POF outer surface. Experiments demonstrate the feasibility of the sensor system as the presence of H2S is successfully measured through an increase of optical losses through the POF link. This cost-effective, scalable, and compact sensor is promising for application in environmental sensing.
Design of a smartphone plastic optical fiber chemical sensor for hydrogen sulfide detection / Sultangazin, Alimzhan; Kusmangaliyev, Janysbek; Aitkulov, Arman; Akilbekova, Dana; Olivero, Massimo; Tosi, Daniele. - In: IEEE SENSORS JOURNAL. - ISSN 1530-437X. - ELETTRONICO. - 17:21(2017), pp. 6935-6940. [10.1109/JSEN.2017.2752717]
Design of a smartphone plastic optical fiber chemical sensor for hydrogen sulfide detection
OLIVERO, MASSIMO;
2017
Abstract
We present a low-cost, handheld plastic optical fiber (POF) sensor for hydrogen sulfide (H2S) detection integrated onto a smartphone. The sensor uses smartphone flashlight as a source and camera as a pixel-based intensity detector. The POF is interconnected to the smartphone with a 3-D-printed connector on both source/detector sides. The sensing mechanism is embedded in the fiber link, making the system an all-fiber smartphone architecture. A mobile application handles data acquisition on the Android operative system. The sensor is functionalized for H2S detection through silver deposition on the POF outer surface. Experiments demonstrate the feasibility of the sensor system as the presence of H2S is successfully measured through an increase of optical losses through the POF link. This cost-effective, scalable, and compact sensor is promising for application in environmental sensing.
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POF_sens_smarthphone_paper_draft.pdf
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https://hdl.handle.net/11583/2686505
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