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W2022996680 endingPage "642" @default.
W2022996680 startingPage "634" @default.
W2022996680 abstract "This research article describes the large scale fabrication of ZnO nanorods of various shapes on Si(100) substrate, by using metalorganic precursor of Zn in solutions with microwave as the source of energy. This is a low temperature, environmental friendly and rapid thin film deposition process, where ZnO nanorods (1–3 μm length) were grown only in 1–5 min of microwave irradiation. All as-synthesized nanorods are of single crystalline grown along the <0001> crystallographic direction. The coated nanorods were found to be highly dense having a thickness of ∼1–3 μm over the entire area 20 mm × 20 mm of the substrate. The ZnO thin film comprising of nanorods exhibits good adhesion with the substrate. A possible mechanism for the initial nucleation and growth of ZnO is discussed. A cross over from a strong visible light emission to an enhanced UV emission is observed, when the nature of the surfactants are varied from polymeric to ionic and nonionic. The position of the chromaticity coordinates in yellow region of the color space gives an impression of white light generation from these coatings by exciting with a blue laser." @default.
W2022996680 created "2016-06-24" @default.
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W2022996680 creator A5085929393 @default.
W2022996680 date "2013-07-01" @default.
W2022996680 modified "2023-10-18" @default.
W2022996680 title "Low temperature and rapid deposition of ZnO nanorods on Si(100) substrate with tunable optical emissions" @default.
W2022996680 cites W1963483973 @default.
W2022996680 cites W1964808382 @default.
W2022996680 cites W1968936366 @default.
W2022996680 cites W1969011142 @default.
W2022996680 cites W1971389304 @default.
W2022996680 cites W1985183096 @default.
W2022996680 cites W1985186984 @default.
W2022996680 cites W1987010562 @default.
W2022996680 cites W1989591701 @default.
W2022996680 cites W1990542284 @default.
W2022996680 cites W1992147682 @default.
W2022996680 cites W1992425819 @default.
W2022996680 cites W1993296587 @default.
W2022996680 cites W1993528485 @default.
W2022996680 cites W1997268919 @default.
W2022996680 cites W1998422148 @default.
W2022996680 cites W2000172131 @default.
W2022996680 cites W2000380485 @default.
W2022996680 cites W2004230289 @default.
W2022996680 cites W2007630574 @default.
W2022996680 cites W2008401387 @default.
W2022996680 cites W2009067375 @default.
W2022996680 cites W2014533102 @default.
W2022996680 cites W2015100124 @default.
W2022996680 cites W2015123674 @default.
W2022996680 cites W2016538736 @default.
W2022996680 cites W2016999210 @default.
W2022996680 cites W2020042616 @default.
W2022996680 cites W2023499621 @default.
W2022996680 cites W2023899326 @default.
W2022996680 cites W2029202344 @default.
W2022996680 cites W2032060858 @default.
W2022996680 cites W2032286789 @default.
W2022996680 cites W2033392034 @default.
W2022996680 cites W2034261874 @default.
W2022996680 cites W2040157690 @default.
W2022996680 cites W2043449313 @default.
W2022996680 cites W2045883986 @default.
W2022996680 cites W2050818838 @default.
W2022996680 cites W2057480138 @default.
W2022996680 cites W2060506126 @default.
W2022996680 cites W2065246041 @default.
W2022996680 cites W2065290816 @default.
W2022996680 cites W2068307752 @default.
W2022996680 cites W2069750095 @default.
W2022996680 cites W2076064777 @default.
W2022996680 cites W2076166432 @default.
W2022996680 cites W2079465477 @default.
W2022996680 cites W2081368634 @default.
W2022996680 cites W2092426063 @default.
W2022996680 cites W2094170235 @default.
W2022996680 cites W2094847772 @default.
W2022996680 cites W2128503503 @default.
W2022996680 cites W2132872911 @default.
W2022996680 cites W2136359657 @default.
W2022996680 cites W2138870519 @default.
W2022996680 cites W2141184801 @default.
W2022996680 cites W2147603821 @default.
W2022996680 cites W2150412246 @default.
W2022996680 cites W2152560421 @default.
W2022996680 cites W2160365556 @default.
W2022996680 cites W2162818894 @default.
W2022996680 cites W2170462055 @default.
W2022996680 cites W2951061630 @default.
W2022996680 doi "https://doi.org/10.1016/j.matchemphys.2013.04.017" @default.
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