氧化铝上二甲醚活化中 Al 位点间的协同作用促进氢转移和碳-碳键形成。

Cooperativity between Al Sites Promotes Hydrogen Transfer and Carbon-Carbon Bond Formation upon Dimethyl Ether Activation on Alumina.

机构信息

Department of Chemistry and Applied Biosciences, ETH Zürich , Vladimir Prelog Weg 1-5, CH-8093 Zürich, Switzerland.

CNRS, Institut de Chimie de Lyon, École Normale Supérieure de Lyon, Université de Lyon , 46 allée d'Italie, F-69364 Lyon Cedex 07, France.

出版信息

ACS Cent Sci. 2015 Sep 23;1(6):313-9. doi: 10.1021/acscentsci.5b00226. Epub 2015 Aug 5.

DOI:10.1021/acscentsci.5b00226

PMID:27162986

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4827526/

Abstract

The methanol-to-olefin (MTO) process allows the conversion of methanol/dimethyl ether into olefins on acidic zeolites via the so-called hydrocarbon pool mechanism. However, the site and mechanism of formation of the first carbon-carbon bond are still a matter of debate. Here, we show that the Lewis acidic Al sites on the 110 facet of γ-Al2O3 can readily activate dimethyl ether to yield CH4, alkenes, and surface formate species according to spectroscopic studies combined with a computational approach. The carbon-carbon forming step as well as the formation of methane and surface formate involves a transient oxonium ion intermediate, generated by a hydrogen transfer between surface methoxy species and coordinated methanol on adjacent Al sites. These results indicate that extra framework Al centers in acidic zeolites, which are associated with alumina, can play a key role in the formation of the first carbon-carbon bond, the initiation step of the industrial MTO process.

摘要

甲醇制烯烃（MTO）工艺允许通过所谓的烃池机制在酸性沸石上将甲醇/二甲醚转化为烯烃。然而，第一个碳-碳键的形成位置和机制仍存在争议。在这里，我们通过光谱研究结合计算方法表明，γ-Al2O3 的 110 面上的路易斯酸性 Al 位可以容易地将二甲醚激活生成 CH4、烯烃和表面甲酸盐物种。根据光谱研究结合计算方法表明，碳-碳形成步骤以及甲烷和表面甲酸盐的形成涉及瞬态氧鎓离子中间体，该中间体是通过表面甲氧基物种和相邻 Al 位上配位甲醇之间的氢转移生成的。这些结果表明，与氧化铝相关的酸性沸石中的骨架外 Al 中心在第一个碳-碳键的形成中、在工业 MTO 工艺的引发步骤中可以发挥关键作用。

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氧化铝上二甲醚活化中 Al 位点间的协同作用促进氢转移和碳-碳键形成。

Cooperativity between Al Sites Promotes Hydrogen Transfer and Carbon-Carbon Bond Formation upon Dimethyl Ether Activation on Alumina.

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