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W2600883280 abstract "In the present research, we propose a novel approach for the detection of hydrogen gas using Mn implanted ZnO nanowires fabricated onto ITO coated glass substrate by chemical spray pyrolysis deposition. The effect of Mn concentration on the structural, optical and morphological properties of ZnO films were investigated. X-ray diffraction studies showed that the Mn implanted ZnO films were grown as a polycrystalline hexagonal wurtzite phase without any impurities. The (101) peak position of ZnO-Mn films was shifted towards a lower angle with increasing Mn concentration. The optical band gap decreased from 3.45 eV to 3.23 eV with increasing Mn content. PL spectra, revealed sharp and strong near band edge emission which suggests that ZnO nanowires exhibit high crystalline quality. FE-SEM images of Mn implanted ZnO show perfectly aligned nanowires for all the films fabricated on ITO. The material (Zn, O, Mn) was confirmed by EDX spectra. The hydrogen sensing mechanism of the Mn implanted ZnO nanowire sensor was also discussed. It was found that H2 response was significantly enhanced by more than one order of magnitude with increasing Mn doping concentrations. The studied ZnO-Mn films coated on ITO substrate can be used as a low cost and easy-fabrication hydrogen sensing material." @default.
W2600883280 created "2017-04-07" @default.
W2600883280 creator A5020171213 @default.
W2600883280 creator A5070915132 @default.
W2600883280 date "2017-08-01" @default.
W2600883280 modified "2023-10-15" @default.
W2600883280 title "High performance hydrogen sensor based on Mn implanted ZnO nanowires array fabricated on ITO substrate" @default.
W2600883280 cites W1865470998 @default.
W2600883280 cites W1968712005 @default.
W2600883280 cites W1971977630 @default.
W2600883280 cites W1978066323 @default.
W2600883280 cites W1984602382 @default.
W2600883280 cites W1987266183 @default.
W2600883280 cites W1987507450 @default.
W2600883280 cites W1992234785 @default.
W2600883280 cites W1995810423 @default.
W2600883280 cites W1996079288 @default.
W2600883280 cites W1998827045 @default.
W2600883280 cites W2004255744 @default.
W2600883280 cites W2007138553 @default.
W2600883280 cites W2008221506 @default.
W2600883280 cites W2009509905 @default.
W2600883280 cites W2017539496 @default.
W2600883280 cites W2018622313 @default.
W2600883280 cites W2019300099 @default.
W2600883280 cites W2021734139 @default.
W2600883280 cites W2025820031 @default.
W2600883280 cites W2028177893 @default.
W2600883280 cites W2029104294 @default.
W2600883280 cites W2033610284 @default.
W2600883280 cites W2040541077 @default.
W2600883280 cites W2049111680 @default.
W2600883280 cites W2056762253 @default.
W2600883280 cites W2060464631 @default.
W2600883280 cites W2060608159 @default.
W2600883280 cites W2063395327 @default.
W2600883280 cites W2078891446 @default.
W2600883280 cites W2084356259 @default.
W2600883280 cites W2090985551 @default.
W2600883280 cites W2094270784 @default.
W2600883280 cites W2098895560 @default.
W2600883280 cites W2102423170 @default.
W2600883280 cites W2103572269 @default.
W2600883280 cites W2119431383 @default.
W2600883280 cites W2127629894 @default.
W2600883280 cites W2129729573 @default.
W2600883280 cites W2136937395 @default.
W2600883280 cites W2138678565 @default.
W2600883280 cites W2138855176 @default.
W2600883280 cites W2139460208 @default.
W2600883280 cites W2150055145 @default.
W2600883280 cites W2151915271 @default.
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W2600883280 cites W2170591299 @default.
W2600883280 cites W2321409939 @default.
W2600883280 cites W2332047148 @default.
W2600883280 cites W2513670339 @default.
W2600883280 cites W282130833 @default.
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W2600883280 doi "https://doi.org/10.1016/j.msec.2017.03.234" @default.
W2600883280 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/28532026" @default.
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