一种用于简便合成谷氨酸锌金属有机框架的可持续方案：一种在潮湿条件下用于室温二氧化碳固定反应的高效催化剂。

A sustainable protocol for the facile synthesis of zinc-glutamate MOF: an efficient catalyst for room temperature CO2 fixation reactions under wet conditions.

作者信息

Kathalikkattil Amal Cherian, Roshan Roshith, Tharun Jose, Babu Robin, Jeong Gyeong-Seon, Kim Dong-Woo, Cho Sung June, Park Dae-Won

机构信息

School of Chemical and Biomolecular Engineering, Pusan National University, Busan 609-735, Korea.

出版信息

Chem Commun (Camb). 2016 Jan 7;52(2):280-3. doi: 10.1039/c5cc07781h. Epub 2015 Oct 30.

DOI:10.1039/c5cc07781h

PMID:26515327

Abstract

A water stable zinc-MOF (ZnGlu) catalyst was facilely prepared from the proteinogenic amino acid, l-glutamic acid at room temperature in aqueous medium. CO2 fixations were promoted by the ZnGlu catalyst's inherently coordinated water and externally added water in yielding cyclic carbonate and cyclic urethane at room temperature. This eliminates the need for catalyst activation, making ZnGlu a ready-to-use catalyst. The enhanced CO2 cycloaddition with added water hints at the application of ZnGlu in wet flue gas conversions. This is the first reported attempt for the use of an MOF in the cycloaddition of aziridine and CO2.

摘要

一种水稳定的锌-金属有机框架（ZnGlu）催化剂在室温下于水性介质中由蛋白质ogenic氨基酸L-谷氨酸轻松制备而成。ZnGlu催化剂固有的配位水和外加的水在室温下促进了二氧化碳固定，生成环状碳酸酯和环状聚氨酯。这消除了催化剂活化的需要，使ZnGlu成为一种即用型催化剂。添加水后增强的二氧化碳环加成反应暗示了ZnGlu在湿法烟气转化中的应用。这是首次报道将金属有机框架用于氮丙啶与二氧化碳的环加成反应。

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一种用于简便合成谷氨酸锌金属有机框架的可持续方案：一种在潮湿条件下用于室温二氧化碳固定反应的高效催化剂。

A sustainable protocol for the facile synthesis of zinc-glutamate MOF: an efficient catalyst for room temperature CO2 fixation reactions under wet conditions.

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