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C. Laville, “Pellet Interdigitated humidity sensors for a portable clinical microsystem”, IEEE Trans Biomed Eng, vol.49, no.10, 2002, pp. 1162–1167.10.1109/TBME.2002.80205212374340Search in Google Scholar
A. H. M. Habib Ahsan, C. F. Lange, W. Moussa , “Development of a Humidity Microsensor with Thermal Reset”, In Proceedings of the International Conference on MEMS, NANO and Smart Systems, Banff, AB, Canada, 20–23 July, 2003, pp.89-93.Search in Google Scholar
S. A. Kolpakov, N. T. Gordon, C. Mou, K. Zhou, “Toward a new generation of photonic humidity sensors” Sensors, vol.14 , no.3, 2014, pp. 3986-4013.10.3390/s140303986400392724577524Search in Google Scholar
S. F. H. Correia, P. Antunes, E. Pecoraro, P. P. Lima , H. Varum , L. D. Carlos, R.A.S. Ferreira , P.S. Andre, “Optical Fibre Relative humidity sensors based on a FBG with a Di- Ureasil coating” Sensors, vol.12, no.7, 2012 , pp. 8847-8860.10.3390/s120708847344407923012521Search in Google Scholar
D. K. Ghara, D. Saha and K. Sengupta, “Leak rate and location analysis through slits and cracks in pipes by nano porous ceramic humidity sensors”, International journal on smart sensing and intelligent systems, vol. 1, no. 3, september 2008, pp.784-79810.21307/ijssis-2017-320Search in Google Scholar
M. Bedoya, M. T. Diez, M. C. Moreno-Bondi, G. Orellana, “Humidity sensing with a luminescent Ru(II) complex and phase-sensitive detection” Sens Actuators B Chem vol. 113, no.2, 2006, pp.573–581.10.1016/j.snb.2005.07.006Search in Google Scholar
M. Konstantaki, S. Pissadakis, S. Pispas, N. Madamopoulos, and N.A. Vainos, “Optical fibre long-period grating humidity sensor with poly (ethylene oxide)/cobalt chloride coating” Appl Opt, vol. 45, no.19, 2006, pp.4567–4571.10.1364/AO.45.004567Search in Google Scholar
T. Venugopalan, T. L.Yeo,T. Sun, and K.T.V. Grattan “LPG based PVA coated sensor for relative humidity measurement”, IEEE Sens J, vol. 8, no.7, 2008, pp. 1093–1098.10.1109/JSEN.2008.926524Search in Google Scholar
J.M. Corres,J. Bravo, I.R. Matias,F. J. Arregui, “Nonadiabatic tapered single-mode fibre coated with humidity sensitive nanofilms” IEEE Photon Technol Lett, vol. 18, no.8, 2006, pp. 935–937.10.1109/LPT.2006.873568Search in Google Scholar
M.A. El-Sherif, “On-Fibre sensor and modulator”IEEE Trans Instrum Meas vol.38, no.2, 1989, pp. 595–598.10.1109/19.192356Search in Google Scholar
M. A. El-Sherif, “An Apparatus and a Method Comprising an Optical Fibre Modulator, Coupler, Switch, Sensor, and Distribution System (1991) U.S. Patent 5 060 307.Search in Google Scholar
P. J. Rivero, A. Urrutia, J. Goicoechea, F. J. Arregui, I. R. Matías, “Humidity sensor based on silver nanoparticles embedded in a polymeric coating”, International journal on smart sensing and intelligent systems, vol. 5, no. 1, march 2012, pp.71-83.10.21307/ijssis-2017-471Search in Google Scholar
J. An, Y.Zhao, Y. Ji,C. Shen, “Relative humidity sensor based on SMS fibre structure with polyvinyl alcohol coating” , Optik- International journal for light and electron optics, vol. 124, no.23, 2013, pp. 6178-6181.10.1016/j.ijleo.2013.04.095Search in Google Scholar
X. Dong, T. Li, Y. Liu, Y. Li, C. L. Zhao,C.C. Chan “ Polyvinyl alcohol–coated hybrid fibre grating for relative humidity sensing” , J Biomed Opt, vol. 16, no.7, 2011, pp. 077001.10.1117/1.359584521806281Search in Google Scholar
K. Thangavelu,R. Annamalai ,D. Arulnandhi, “Preparation and Characterization of Nanosized TiO2 Powder by Sol-Gel Precipitation Route” Int J Emerg Technol Adv Eng, vol. 3, no.1, 2013,pp.636-639.Search in Google Scholar
S.K. Shukla, A. Bharadvaja, G.K. Parashar, A.P. Mishra, G.C. Dubey,A.Tiwari , “Fabrication of ultra-sensitive optical fibre based humidity sensor using TiO2 thin film” Adv Mat Lett ,vol 3, no.5, 2012,pp. 365-370.10.5185/amlett.2012.5350Search in Google Scholar
D. V. Bavykin, J. M. Friedrich, F. C. Walsh, “Protonated titanates and TiO2 nanostructured materials: synthesis, properties, and applications”, Adv Mater,vol. 18,no. 21, 2006, pp.2807–2824.10.1002/adma.200502696Search in Google Scholar
Z. Chen Z, C. Lu, “Humidity Sensors: A Review of Materials and Mechanisms” Sensor Letters, vol. 3, 2005, pp.274–295.10.1166/sl.2005.045Search in Google Scholar
J. Ahmad, K. Deshmukh, M. Habib, M. B. Hägg, “Influence of TiO2 Nanoparticles on the Morphological, Thermal and Solution Properties of PVA/TiO2 Nanocomposite Membranes”, Arab J Sci Eng, vol. 39, no.10, 2014, pp. 6805-6814.10.1007/s13369-014-1287-0Search in Google Scholar
R. Singh, S. G. Kulkarni, S. S. Channe, “Thermal and mechanical properties of nano titanium dioxide-doped polyvinyl alcohol”, Polym Bull, vol. 70, no.4, 2013, pp. 1251– 1264.10.1007/s00289-012-0846-3Search in Google Scholar
A. Maurya, P. Chauhan, “Synthesis and characterization of sol–gel derived PVA- titanium dioxide (TiO2) nanocomposite”, Polym Bull, vol. 68, no.4, 2012, pp.961–97210.1007/s00289-011-0589-6Search in Google Scholar
P. Ahmadpoor, A. S. Nateri, V. Motaghitalab, “The optical properties of PVA/TiO2 composite nanofibres”, J Appl Polym Sci, vol.130, no.1, 2012, pp. 78-85.10.1002/app.39147Search in Google Scholar
V. Parthasarathi and G. Thilagavathi, “Synthesis and Characterization and Their Application to Textile for Microbe Resistance,” Journal of Textile Apparel Technology and Management, Vol. 6, No. 2, 2009, pp. 1-8.Search in Google Scholar
H. Pana, X. D. Wang, X. X. Xiao, L. G. Yu, Z. J. Zhang, “Preparation and characterization of TiO2 nanoparticles surface-modified by octadecyltrimethoxysilane”, Indian J Eng Mater S , vol. 20, 2013, pp.561-567.Search in Google Scholar
W. C. Wong, C. C. Chana, L. H. Chena, T. Li, K. X. Leea, K. C. Leong, “Polyvinyl alcohol coated photonic crystal optical Fibre sensor for humidity measurement”, Sensors and Actuat B-Chem, vol. 174, 2012, pp. 563– 569.10.1016/j.snb.2012.07.032Search in Google Scholar
A. Gaston, I. Lozano, F. Perez, F. Auza, J. Sevilla, “Evanescent wave optical-fibre sensing (temperature, relative humidity, and pH sensors)” , IEEE Sens J, vol.3, no.6, 2003, pp. 806–811.10.1109/JSEN.2003.820349Search in Google Scholar
T. Islam, Z. U. Rahman and S. C. Mukhopadhyay, A Novel Sol–Gel Thin-Film Constant Phase Sensor for High Humidity Measurement in the Range of 50%–100% RH, IEEE Sensors Journal, Vol. 15, No. 4, April 2015, pp. 2070-2076.10.1109/JSEN.2014.2377242Search in Google Scholar
A. A. Herrero, H. Guerrero, D. Levy, “High-sensitivity sensor of low relative humidity based on overlay on side-polished fibres” , IEEE Sens J, vol. 4,no.1, 2004,pp. 52–56.10.1109/JSEN.2003.822214Search in Google Scholar
M. Konstantaki, S. Pissadakis, S. Pispas, N. Madamopoulos, N. A. Vainos,”Optical fibre long-period grating humidity sensor with poly (ethyleneoxide)/cobalt chloride coating”, Appl Opt, vol. 45, no. 19, 2006, pp.4567–4571.10.1364/AO.45.00456716799666Search in Google Scholar
I. R. Matias, F. J. Arregui, J. M. Corres, J. Bravo, “Evanescent field fibre-optic sensors for humidity monitoring based on nanocoatings” IEEE Sens J, vol. 7,no.1, 2007, pp.89– 95.10.1109/JSEN.2006.886889Search in Google Scholar
J. M. Corres, F. J. Arregui FJ, I. R. Matias, “Sensitivity optimization of tapered optical fibre humidity sensors by means of tuning the thickness of nanostructured sensitive coatings”, Sens Actuators B, vol. 122, no.2, 2007, pp. 442–449.10.1016/j.snb.2006.06.008Search in Google Scholar
H. Liu, Y. Miao, B. Liu, W. Lin, H. Zhang, B. Song, M. Huang, L. Lin, “Relative Humidity Sensor Based on S-Taper Fibre Coated With SiO2 Nanoparticles” IEEE Sens J, vol. 15, no.6, 2015, pp. 3424-3428.10.1109/JSEN.2015.2389519Search in Google Scholar
Ramesh H. Bari, Sharad.B. Patil, Anil.R. Bari, “Synthesis, characterization and gas sensing performance of sol-gel prepared nanocrystalline SnO2 thin films”, International journal on smart sensing and intelligent systems vol. 7, no. 2, June 2014, pp. 610-629.10.21307/ijssis-2017-672Search in Google Scholar
