Formaldehyde Sensing Using Tapered U-Shape Plastic Optical Fiber Coated With Zinc Oxide Nanorods

Abstract: Continuous exposure to formaldehyde may cause injury to the central nervous, respiratory, blood, and immunological systems. Tapered U-shape plastic optical fiber (POF) coated with zinc oxide nanorods was evaluated at wavelength of 645 nm for formaldehyde vapor sensing within a concentration range from 5% to 20%. The tapered POF with 500 µm waist diameter was prepared using chemical etching technique. Zinc oxide nanorods were synthesized using hydrothermal method and growth for 12 hours on the tapered POF. The … Show more

“…And Abutan et al presented a hollow core PCF sensor for gas sensing [10]. For the detection of organic compounds in aqueous solution, optical fiber sensor also has great potential and has been used to detect formaldehyde, ethanol, and benzene, etc [11,12]. For glycerol detection, there are already some fiber detectors based on surface plasmon resonance (SPR).…”

Simulation of a microstructure fiber glycerol sensor based on lossy mode resonance

“…And Abutan et al presented a hollow core PCF sensor for gas sensing [10]. For the detection of organic compounds in aqueous solution, optical fiber sensor also has great potential and has been used to detect formaldehyde, ethanol, and benzene, etc [11,12]. For glycerol detection, there are already some fiber detectors based on surface plasmon resonance (SPR).…”

Simulation of a microstructure fiber glycerol sensor based on lossy mode resonance

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