载金催化剂在CO氧化、甲醇合成和丙烯环氧化方面的研究进展

Ndepana A. Gaya, Victor Charles, Innocent Joseph, H. Louis
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引用次数: 2

摘要

摘要本文综述了利用金(Au)和金负载簇进行一氧化碳(CO)转化、甲醇合成和丙烯环氧化的反应途径。在纳米金(Au/SiO2)催化剂体系上,重点介绍了甲烷制甲醇的过程。提出了反应机理,表明在氧化-还原循环中消耗了分子氧。因此,甲烷氧化制甲醇可以作为一种绿色化学过程来实现。该系统还可用于液相或气相氧化等绿色化工过程。甲醇有望成为部分以化石能源为基础的经济体的潜在解决方案。此外,它是一种公认的能源载体,在运输、储存和再利用方面优于其他替代品。在不久的将来,可能会发现新的或改进的甲醇生产催化剂。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A review on CO oxidation, methanol synthesis, and propylene epoxidation over supported gold catalysts
Abstract The aim of this general review is to give an overview of the reaction pathways involving the transformation of carbon monoxide (CO), methanol synthesis and propylene epoxidation using gold (Au) and gold supported clusters. Over the catalyst system of Nano-gold (Au/SiO2), the process of methane to methanol was also highlighted. A reaction mechanism proposed, indicated that molecular oxygen was consumed in the oxidation–reduction cycle. Consequently, methane oxidation to methanol can be achieved as a green chemical process. The system can also be used in other green chemical processes of liquid phase or gas phase oxidations. Methanol is expected to be a potential solution to the partial deployment of fossil source-based economies. Moreover, it is a recognized energy carrier that is better than other alternatives in terms of transportation, storage and reuse. New or improved catalysts for methanol production are likely to be discovered in the near future.
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