Thermal decomposition of hydroxycarbonate Cu-Fe-Cr spinel precursors

Catalysis for Sustainable Energy Pub Date : 2017-12-20 DOI:10.1515/cse-2017-0011
N. V. Shtertser, L. Plyasova, E. V. Dokuchits, T. Minyukova, T. M. Yurieva
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引用次数: 2

Abstract

Abstract Decomposition of mixed Cu-Fe-Cr hydroxycarbonates was investigated by thermal analysis and in situ XRD and FTIR. TGA and DTA showed that increased preheating temperature removes modifying anions and decreases the spinel crystallization temperature. A disordered oxide phase containing carbonate is initially formed. The carbonate contents and crystallization temperature decreases depend on the Fe3+/Cr3+ ratio. The residual anion content may affect interlayer and interblock distances in this amorphous phase, changing the spinel crystallization temperature. Understanding the modifying anion effects on the spinel crystallization makes it possible to select the thermal treatment.
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羟基碳酸盐Cu-Fe-Cr尖晶石前驱体的热分解
摘要采用热分析、原位XRD和FTIR研究了Cu-Fe-Cr混合羟基碳酸盐的分解。热重分析(TGA)和差热分析(DTA)表明,预热温度的升高使改性阴离子去除,尖晶石结晶温度降低。一种含碳酸盐的无序氧化相最初形成。碳酸盐含量和结晶温度随Fe3+/Cr3+比值的减小而减小。残余的阴离子含量会影响非晶相的层间和块间距离,从而改变尖晶石的结晶温度。了解阴离子对尖晶石结晶的修饰作用,可以为尖晶石热处理的选择提供依据。
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Catalysis for Sustainable Energy
Catalysis for Sustainable Energy
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