Recent advances in engineering montmorillonite into catalysts and related catalysis

Wei Jun Huang, Jia Hui Liu, Qingyan She, J. Zhong, G. Christidis, C. Zhou
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引用次数: 13

Abstract

ABSTRACT Montmorillonite, a ubiquitous clay mineral, has been engineered into a variety of porous and nanostructured catalysts, owing to its peculiar layered structure with characteristic surface and intercalation chemistry. Such a class of catalysts have continuously received considerable attention in both science and industry. This review examines recent advance in engineering montmorillonite into metal ion-exchanged montmorillonite catalysts, acid-activated montmorillonite catalysts, organo-montmorillonite catalysts, pillared interlayered montmorillonite catalysts and montmorillonite-supported catalysts. The former two types of montmorillonite-based catalysts have been used in the catalytic cracking, dehydration, hydrolysis, esterification, polymerization, alkylation, and Fischer-Tropic synthesis. The introduction of oxide pillars in the interlayer space of montmorillonite and the immobilization of metal oxides or zero-valent metals on the surface of montmorillonite allow montmorillonite to be used in the catalytic oxidation, reduction, isomerization and coupling reactions. Currently, the role of montmorillonite in acid catalysis, redox catalysis, and free radical catalysis have been partly revealed. The effect of the structures and the active sites of modified montmorillonite on its catalytic performance need to be investigated in more detail. Future work is suggested to focus on solving engineering problems and exploring novel catalytic applications of montmorillonite, in particular exfoliated montmorillonite nanolayers.
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工程蒙脱土催化剂及相关催化的最新进展
蒙脱土是一种普遍存在的粘土矿物,由于其独特的层状结构,具有独特的表面和插层化学性质,已被设计成各种多孔和纳米结构的催化剂。这类催化剂在科学界和工业界一直受到相当大的关注。综述了工程蒙脱土在金属离子交换蒙脱土催化剂、酸活化蒙脱土催化剂、有机蒙脱土催化剂、柱状层间蒙脱土催化剂和蒙脱土负载型催化剂等方面的研究进展。前两种蒙脱石基催化剂已用于催化裂化、脱水、水解、酯化、聚合、烷基化和费歇尔合成。在蒙脱土层间空间引入氧化柱,并将金属氧化物或零价金属固定在蒙脱土表面,使蒙脱土可用于催化氧化、还原、异构化和偶联反应。目前,蒙脱土在酸催化、氧化还原催化、自由基催化等方面的作用已得到部分揭示。改性蒙脱土的结构和活性位点对其催化性能的影响有待进一步研究。建议今后的工作重点是解决工程问题和探索新的催化应用蒙脱土,特别是剥离蒙脱土纳米层。
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