Synthesis of Stable Sols of Layered Titanate Nanoparticles using Dialysis and Applications for Thin Film Preparation

C. Wen, T. Kojima, N. Uekawa
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引用次数: 1

Abstract

Sols with stable dispersion of layered titanate nanoparticles were prepared at 298 K using dialysis of a mixed solution of ethylene glycol, TiCl 3 , ammonium carbonate, and H 2 O 2 . Raman spectra of the particles in the obtained sols showed Raman scattering peaks which can be assigned to a layered titanate structure. The stability of the obtained sols depended on the molar ratio of [ammonium carbonate] / [Ti ion]. The molar ratios of 3, 4, and 5 produced transparent yellow stable sols. Peptization of titanium hydroxide precipitate with H 2 O 2 formed stable sols with dispersion of layered titanate nanoparticles, which had plate - shaped morphology. The obtained sols formed layered titanate thin films on glass substrates easily by drying the sols. Furthermore, when the layered titanate thin films were heated at 773 K for 1 h, anatase TiO 2 thin films were obtained with (101) orientation of crystallites and optical transparency.
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透析法制备层状纳米钛酸盐稳定溶胶及其在薄膜制备中的应用
采用乙二醇、ticl3、碳酸铵和h2o的混合溶液透析,在298 K下制备了具有稳定分散的层状钛酸盐纳米颗粒溶胶。所得溶胶中粒子的拉曼光谱显示拉曼散射峰,可归属于层状钛酸盐结构。所得溶胶的稳定性取决于[碳酸铵]/[钛]的摩尔比。3、4和5的摩尔比产生透明的黄色稳定溶胶。氢氧化钛沉淀物与h2o的水解形成稳定的溶胶,并分散成层状的钛酸盐纳米颗粒,具有板状形貌。所获得的溶胶通过干燥易于在玻璃基板上形成层状钛酸盐薄膜。此外,当层状钛酸盐薄膜在773 K下加热1 h时,获得了具有(101)取向和光学透明度的锐钛矿tio2薄膜。
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