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DOI	10.1016/j.ijleo.2020.166123
	Nickel doping induced amorphization of brookite TiO2: Photoluminescence enhancement
	Lamouchi W.; Slama S.B.; Saadallah F.; Bouaicha M.
发表日期	2021
ISSN	304026
卷号	227
英文摘要	In this work, we have elaborated nickel doped TiO2 thin films by low temperature spray pyrolysis technique from ethanol based precursor. For the sample free of nickel, The FTIR spectrum reveals a large amount of organic species bonded to TiO2, resulting in a carbon-doped brookite. Ni doping causes extinction of the organic related peak that fade away for highly (> 10 %) Ni doped films. XRD spectra reveal the presence of brookite phase for low Ni amounts. While increasing Ni rate, the crystalline phase undergoes a transition to amorphous state and brookite XRD peaks vanishes. Optical and electronic (SEM) micrographs show a smooth surface with small brookite nanoparticles, for low Ni rate. Increasing Ni rate results in a fractured morphology composed of micrometric smooth ships. Optical absorption obtained by transmittance-reflectance spectra is enhanced in the transparency region of TiO2, by Ni doping due to the increase of defect density and the brookite to amorphous phase transformation. Visible and UV emission spectra are obtained from PL measurements at room temperature. A spectacular PL magnification is obtained for high Ni doping levels due to increase of oxygen vacancies in the amorphous film. However, thermal annealing at 500 °C causes recrystallization to anatase phase, leading to a dramatic PL quenching. © 2020 Elsevier GmbH
英文关键词	Carbon and Ni doping amorphous TiO2; Optical absorption; Photoluminescence enhancement
scopus关键词	Amorphization; Amorphous films; Emission spectroscopy; Fourier transform infrared spectroscopy; Light absorption; Morphology; Nickel metallography; Oxide minerals; Semiconductor doping; Spray pyrolysis; Temperature; Thin films; Titanium dioxide; Uranium metallography; Vanadium metallography; X ray diffraction; Amorphous phase; Crystalline phase; Low temperatures; Photoluminescence enhancement; Reflectance spectrum; Spray-pyrolysis techniques; Thermal-annealing; Transparency region; Nickel
来源期刊	Optik
文献类型	期刊论文
条目标识符	http://gcip.llas.ac.cn/handle/2XKMVOVA/177256
作者单位	Photovoltaic Laboratory LPV, CRTEn Borj Cedria, Tunisia; LSNTA Laboratory, CRTEn Borj Cedria, Tunisia
推荐引用方式 GB/T 7714	Lamouchi W.,Slama S.B.,Saadallah F.,et al. Nickel doping induced amorphization of brookite TiO2: Photoluminescence enhancement[J],2021,227.
APA	Lamouchi W.,Slama S.B.,Saadallah F.,&Bouaicha M..(2021).Nickel doping induced amorphization of brookite TiO2: Photoluminescence enhancement.Optik,227.
MLA	Lamouchi W.,et al."Nickel doping induced amorphization of brookite TiO2: Photoluminescence enhancement".Optik 227(2021).