Study On Optical Communications, Volume. 49, Issue 5, 50(2023)
Study on Optical Fiber Oxygen Sensing of Fluorinated Dry Gel Sensitive Materials
[1] Wang H. Comparison and Analysis of Results of Dissolved Oxygen Iodimetry and Electrochemical Method in Different Water Bodies[C], 1034-1037(2016).
[2] Li J. Fluorescence Method for Measuring Dissolved Oxygen with Electrode and its Advantages[J]. Chemical Engineering and Equipment, 190-191(2011).
[3] Zhao Y. Development and Application of a Sensor for Dissolved Oxygen in Seawater based on Fluorescence Quenching Principle[D](2009).
[4] Zhong N B, Li C N, Liu Y et al. Effect of Aging Treatment on Optical Transmission and Sensitivity of Plastic Optical Fiber Sensor[J]. Optics and Precision Engineering, 24, 971-978(2016).
[5] Liao X P. Advantages and Applications of Plastic Optical Fiber[J]. West China Science and Technology(2005).
[6] Zhou H R, Wang P. Sensing Application of Plastic Optical Fiber[C], 279-283(2014).
[7] Zhao W. Prepartion and Oxygen Sensing Properties of BTESE/TFP-TriMOS Films[D](2020).
[8] Bukowski R M, Ciriminna R, Pagliaro M et al. High-performance Quenchometric Oxygen Sensors based on Fluorinated Xerogels Doped with [Ru(dpp)3]2+[J]. Analytical Chemistry, 77, 2670-2672(2005).
[9] Estella J, Wencel D, Moore J P et al. Fabrication and Performance Evaluation of Highly Sensitive Hybrid Sol-gel-derived Oxygen Sensor Films based on a Fluorinated Precursor[J]. Analytica Chimica Acta, 666, 83-90(2010).
[10] Liu Z X, Li K, Liu H C et al. Dissolved Oxygen Sensitive Characteristics and Long-term Stability of Optical Oxygen Sensitive Film[J]. Journal of Wuhan University of Technology, 36, 12-15(2014).
[11] O'neal D P, Meledeo M A, Davis J R et al. Oxygen Sensor based on the Fluorescence Quenching of a Ruthenium Complex Immobilized in a Biocompatible Poly(Ethylene glycol) Hydrogel[J]. IEEE Sensors Journal, 4, 728-734(2004).
[12] Anastasova S, Milanova M, Rangelov S et al. Influence of the Precursor Nature and Deposition Mode on the Oxygen Sensing Properties of Ru(II) Complex Immobilized in a SiO2-based Matrix[J]. Journal of Non-Crystalline Solids, 354, 4909-4916(2008).
[13] Peng L R, Yang X H, Zhang J et al. Fluorometry of Dissolved Oxygen Concentration based on Optical Fiber[J]. Journal of Luminescence, 35, 382-386(2014).
[14] Mcdonagh C, Maccraith B D, Mcevoy A K. Tailoring of Sol-gel Films for Optical Sensing of Oxygen in Gas and Aqueous Phase[J]. Analytical Chemistry, 70, 45-50(1998).
[15] Wang T T, Chang J H, Zhu C G et al. Optical and Sensing Properties of Oxygen Sensitive Film Synthesized by Ruthenium Complex[J]. Sensors and Microsystems, 35, 39-42(2016).
[16] Xin L L, Wang X R, Xiao L L et al. Fluorescence Quenching Response of Dissolved Oxygen Organic Modified Sol-gel Sensing Membrane[J]. Chinese Science Bulletin, 51, 2114-2118(2006).
[17] Luo F. Novel Fluorinated Organic Modified Sol-gel Oxygen Sensing Film based on Fluorescence Quenching Principle of Ruthenium Complex[J]. Journal of Analytical Science, 27, 175-178(2011).
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Zheng-lan BIAN, Su-hang YANG, Feng-hong CHU, Chun-peng ZHAO, Yi-sheng SUN, Shi FENG. Study on Optical Fiber Oxygen Sensing of Fluorinated Dry Gel Sensitive Materials[J]. Study On Optical Communications, 2023, 49(5): 50
Category: Research Articles
Received: Oct. 9, 2022
Accepted: --
Published Online: Nov. 22, 2023
The Author Email: Su-hang YANG (1528913476@qq.com)