Effect of Fe2O3 and Cr2O3 on anatase - rutile transformation in TiO2

British Ceramic Transactions Pub Date : 2004-02-01 DOI:10.1179/096797804225012693

S. Riyas, P. N. Mohan Das

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引用次数: 18

Abstract

Abstract Metal oxides supported on TiO2 are gaining in importance as a result of their applications in catalysis. Reactions carried out over TiO2 supported catalysts include hydrodesulphurisation (HDS), partial or selective oxidation, hydrogenation of carbon monoxide, selective catalytic reduction of NOx, coal liquefaction, and ammonia synthesis. Catalytic activity depends on the phase of the TiO2 skeleton (anatase, rutile, or brookite). Catalytic activity is high for anatase, but decreases when it transforms to rutile on heating at high temperature for extended periods. In the present study, the effect of doping with Fe2O3 or Cr2O3 on the anatase to rutile transformation was investigated. Samples prepared by coprecipitation and wet impregnation were heated in air at various temperatures. The calcined samples were characterised by chemical analysis, XRD, surface area measurements, SEM, and grain size measurements. It was observed that the degree of anatase transformation was higher on doping with 15% Fe2O3 or Cr2O3 than with 5%. The method of preparation plays a major role in the transformation, coprecipitated samples always giving higher rutile percentages than wet impregnated ones. The activation energy for the transformation is lower for 15% than for 5% doped samples and for coprecipitated than for wet impregnated ones.

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Fe2O3和Cr2O3对TiO2中锐钛矿-金红石转变的影响

摘要负载在TiO2上的金属氧化物在催化方面的应用越来越重要。在TiO2负载催化剂上进行的反应包括加氢脱硫(HDS)、部分或选择性氧化、一氧化碳加氢、NOx的选择性催化还原、煤液化和氨合成。催化活性取决于TiO2骨架的相(锐钛矿、金红石或板红石)。锐钛矿的催化活性高，但在高温下长时间加热转化为金红石时，催化活性降低。本文研究了Fe2O3和Cr2O3掺杂对锐钛矿向金红石转变的影响。用共沉淀法和湿浸渍法制备的样品在空气中以不同的温度加热。通过化学分析、XRD、表面积测量、SEM和粒度测量对煅烧样品进行了表征。结果表明，添加15% Fe2O3或5% Cr2O3时，锐钛矿的转变程度高于添加5% Fe2O3或5% Cr2O3时。制备方法对金红石的转变起主要作用，共沉淀样品的金红石含量总是高于湿浸渍样品。掺入15%的样品比掺入5%的样品转变活化能低，共沉淀的样品比湿浸渍的样品转变活化能低。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

British Ceramic Transactions

CiteScore

0.10

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0.00%

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