以离子交换树脂为模板制备球形TiO2/Cr2O3复合材料

IF 0.7 Q4 ENGINEERING, CHEMICAL
A. A. Buzaev, A. O. Rogacheva, T. V. Larina, E. V. Dokuchits, O. S. Khalipova, V. V. Zharkova
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引用次数: 0

摘要

通过对初步饱和铬Cr3+阳离子和重铬酸盐\({\text{C}}{{{\text{r}}}_{{\text{2}}}}{\text{O}}_{7}^{{2 - }}\)阴离子的离子交换树脂进行分阶段热处理,制备了两种球状TiO2/Cr2O3复合材料样品,然后涂覆成膜的钛基溶液。煅烧温度是在热分析的基础上设定的,并由选择作为模板的离子交换树脂的类型决定。合成的复合材料一般由α-Cr2O3相组成,TiO2相含量小于4%. The composites replicate the spherical shape of grains for the initial ion-exchange resins with sizes of 370 to 660 µm. The grains of the sample based on kaolinite adsorbing Cr3+ ions have a porous structure with bulbs and cavities. The anion-exchange resin-based sample grains have kinks and cracks over their surfaces due to a nonuniform distribution of adsorbed \({\text{C}}{{{\text{r}}}_{{\text{2}}}}{\text{O}}_{7}^{{2 - }}\) anions in the initial anion-exchange resin. The composites exhibit catalytic activity in the deep p-xylene oxidation reaction. The cation-exchange resin-based sample is more active, due apparently to the smaller accessible titania surfaces in the anion-exchange resin-based sample as a result of the formation of a solid Ti3+ solution in α-Cr2O3.
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Spherical TiO2/Cr2O3 Composites Synthesized with the Use of Ion-Exchange Resins as a Template

Spherical TiO2/Cr2O3 Composites Synthesized with the Use of Ion-Exchange Resins as a Template

Two samples of TiO2/Cr2O3 composites are synthesized in the form of spherical grains via the stagewise thermal treatment of ion-exchange resins preliminarily saturated with chromium Cr3+ cations and dichromate \({\text{C}}{{{\text{r}}}_{{\text{2}}}}{\text{O}}_{7}^{{2 - }}\) anions, and then coated with a film-forming titania-based solution. Calcination temperature regimes are set on the basis of a thermal analysis and determined by the type of ion-exchange resin selected as a template. The synthesized composites are generally composed of the α-Cr2O3 phase, and the content of the TiO2 phase is less than 4%. The composites replicate the spherical shape of grains for the initial ion-exchange resins with sizes of 370 to 660 µm. The grains of the sample based on kaolinite adsorbing Cr3+ ions have a porous structure with bulbs and cavities. The anion-exchange resin-based sample grains have kinks and cracks over their surfaces due to a nonuniform distribution of adsorbed \({\text{C}}{{{\text{r}}}_{{\text{2}}}}{\text{O}}_{7}^{{2 - }}\) anions in the initial anion-exchange resin. The composites exhibit catalytic activity in the deep p-xylene oxidation reaction. The cation-exchange resin-based sample is more active, due apparently to the smaller accessible titania surfaces in the anion-exchange resin-based sample as a result of the formation of a solid Ti3+ solution in α-Cr2O3.

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来源期刊
Catalysis in Industry
Catalysis in Industry ENGINEERING, CHEMICAL-
CiteScore
1.30
自引率
14.30%
发文量
21
期刊介绍: The journal covers the following topical areas: Analysis of specific industrial catalytic processes: Production and use of catalysts in branches of industry: chemical, petrochemical, oil-refining, pharmaceutical, organic synthesis, fuel-energetic industries, environment protection, biocatalysis; technology of industrial catalytic processes (generalization of practical experience, improvements, and modernization); technology of catalysts production, raw materials and equipment; control of catalysts quality; starting, reduction, passivation, discharge, storage of catalysts; catalytic reactors.Theoretical foundations of industrial catalysis and technologies: Research, studies, and concepts : search for and development of new catalysts and new types of supports, formation of active components, and mechanochemistry in catalysis; comprehensive studies of work-out catalysts and analysis of deactivation mechanisms; studies of the catalytic process at different scale levels (laboratory, pilot plant, industrial); kinetics of industrial and newly developed catalytic processes and development of kinetic models; nonlinear dynamics and nonlinear phenomena in catalysis: multiplicity of stationary states, stepwise changes in regimes, etc. Advances in catalysis: Catalysis and gas chemistry; catalysis and new energy technologies; biocatalysis; nanocatalysis; catalysis and new construction materials.History of the development of industrial catalysis.
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