Size–strain line-broadening analysis of anatase/brookite (TiO2)-based nanocomposites with carbon (C): XRPD and Raman spectroscopic analysis

布鲁克特 锐钛矿 材料科学 拉曼光谱 微晶 分析化学(期刊) 纳米复合材料 粉末衍射 结晶学 纳米技术 化学 有机化学 光学 光催化 冶金 物理 催化作用
作者
Aleksandar Kremenović,M. Grujić‐Brojčin,N. Tomić,Vladimir Lazović,Danica Bajuk‐Bogdanović,Jugoslav Krstić,M. Šćepanović
出处
期刊:Acta Crystallographica Section B: Structural Science, Crystal Engineering and Materials [Wiley]
卷期号:78 (2): 214-222 被引量:4
标识
DOI:10.1107/s2052520622001731
摘要

A size–strain line-broadening analysis of the XRPD patterns and Raman spectra for two anatase/brookite (TiO 2 )-based nanocomposites with carbon (C) was carried out and the results compared with those of a similar sample free of carbon. The crystal structures and microstructures of anatase and brookite, as well as their relative abundance ratio, have been refined from XRPD data by the Rietveld method (the low amount of carbon is neglected). The XRPD size–strain analysis resulted in reliable structure and microstructure results for both anatase and brookite. The experimental Raman spectra of all the samples in the region 100–200 cm −1 are dominated by a strong feature primarily composed of the most intense modes of anatase ( E g ) and brookite ( A 1 g ). The anatase crystallite sizes of 14–17 nm, estimated by XRPD, suggest the application of the phonon confinement model (PCM) for the analysis of the anatase E g mode, whereas the relatively large brookite crystallite size (27–29 nm) does not imply the use of the PCM for the brookite A 1 g mode. Superposition of the anatase E g mode profile, calculated by the PCM, and the Lorentzian shape of the brookite A 1 g mode provide an appropriate simulation of the change in the dominant Raman feature in the spectra of TiO 2 -based nanocomposites with carbon. Raman spectra measured in the high-frequency range (1000–2000 cm −1 ) provide information on carbon in the investigated nanocomposite materials. The results from field-emission scanning electron microscope (SEM), thermogravimetric analysis (TGA), Fourier transform infrared (FTIR) spectroscopy and nitrogen physisorption measurements support the XRPD and Raman results.
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