1. Silica Gel Coated Spherical Micro resonator for Ultra-High Sensitivity Detection of Ammonia Gas Concentration in Air
- Author
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Yuliya Semenova, Vishnu Kavungal, Gerald Farrell, Arun Kumar Mallik, Qiang Wu, and Dejun Liu
- Subjects
Fabrication ,Materials science ,Electrical and Electronics ,F200 ,Analytical chemistry ,lcsh:Medicine ,02 engineering and technology ,01 natural sciences ,Article ,010309 optics ,Ammonia ,chemistry.chemical_compound ,Resonator ,Ultra-High Sensitivity Detection of Ammonia Gas Concentration ,0103 physical sciences ,Fiber ,lcsh:Science ,Detection limit ,Multidisciplinary ,Silica Gel Coated Spherical Micro resonator ,Silica gel ,Air ,lcsh:R ,Parts-per notation ,Electrical and Computer Engineering ,021001 nanoscience & nanotechnology ,chemistry ,lcsh:Q ,0210 nano-technology ,Visible spectrum - Abstract
A silica gel coated microsphere resonator is proposed and experimentally demonstrated for measurements of ammonia (NH3) concentration in air with ultra-high sensitivity. The optical properties of the porous silica gel layer change when it is exposed to low (parts per million (ppm)) and even ultra-low (parts per billion (ppb)) concentrations of ammonia vapor, leading to a spectral shift of the WGM resonances in the transmission spectrum of the fiber taper. The experimentally demonstrated sensitivity of the proposed sensor to ammonia is estimated as 34.46 pm/ppm in the low ammonia concentrations range from 4 ppm to 30 ppm using an optical spectrum analyser (OSA), and as 800 pm/ppm in the ultra-low range of ammonia concentrations from 2.5 ppb to 12 ppb using the frequency detuning method, resulting in the lowest detection limit (by two orders of magnitude) reported to date equal to 0.16 ppb of ammonia in air. In addition, the sensor exhibits excellent selectivity to ammonia and very fast response and recovery times measured at 1.5 and 3.6 seconds, respectively. Other attractive features of the proposed sensor are its compact nature, simplicity of fabrication.
- Published
- 2018
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