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Effect of various metal oxides phases present in CuMnOx catalyst for selective CO oxidation

Materials Discovery Pub Date : 2018-06-01 DOI:10.1016/j.md.2018.11.002

Subhashish Dey , Ganesh Chandra Dhal , Devendra Mohan , Ram Prasad

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引用次数: 27

Abstract

Hopcalite (CuMnOx) is a highly efficient catalyst for low temperature oxidation of Carbon monoxide (CO). As synthesized by Co-precipitation method, it shows the high activity for CO oxidation. The coordination between CuO and MnOx in CuMnOx catalyst improves the catalytic activity for CO oxidation. In this research work, we investigate the individual catalytic activity of CuO and MnOx and compare with the multiphase CuMnOx catalyst. The performance of multiphase catalysts CuO and MnO₂ were numerous times higher as compared to single phase CuMnOx. The activity order of catalysts for CO oxidation was as follows: CuMnO_x> MnO_x > CuOx. The success of CuMnOx catalyst has prompted a great deal of research work into each component and nature of active sites. In CuMnOx catalyst, the MnOx acts as an oxygen donor and CuO acts as an oxygen acceptor. The presence of MnOx is possible to assist in the reduction of CuO, due to the coordination between CuO and MnO_x. The calcination strategies of precursors highly affect the physicochemical and catalytic properties of the catalysts for CO oxidation. The reactive calcination (RC) conditions (4.5% CO in air) for prepared catalysts showed the best activity result for CO oxidation, as compared to the traditional method of calcination.

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CuMnOx催化剂中存在的各种金属氧化物相对CO选择性氧化的影响

Hopcalite（CuMnOx）是一种用于一氧化碳（CO）低温氧化的高效催化剂。采用共沉淀法合成，具有较高的Co氧化活性。CuMnOx催化剂中CuO和MnOx之间的配位提高了CO氧化的催化活性。在本研究工作中，我们研究了CuO和MnOx的单独催化活性，并与多相CuMnOx催化剂进行了比较。与单相CuMnOx相比，多相催化剂CuO和MnO2的性能高出数倍。CO氧化催化剂的活性顺序为：CuMnOx>；MnOx>；CuOx。CuMnOx催化剂的成功促使人们对活性位点的每种成分和性质进行了大量的研究。在CuMnOx催化剂中，MnOx充当氧供体，CuO充当氧受体。由于CuO和MnOx之间的配位，MnOx的存在可能有助于CuO的还原。前体的煅烧策略对CO氧化催化剂的物理化学和催化性能有很大影响。与传统的煅烧方法相比，所制备的催化剂的反应煅烧（RC）条件（空气中4.5%的CO）显示出最佳的CO氧化活性结果。

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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Materials Discovery

Materials Discovery

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