通过C-C键形成实现CO加速化学转化的基于簇的金属有机框架材料。

Cluster-based MOFs with accelerated chemical conversion of CO through C-C bond formation.

作者信息

Xiong Gang, Yu Bing, Dong Jie, Shi Ying, Zhao Bin, He Liang-Nian

机构信息

Department of Chemistry, Key Laboratory of Advanced Energy Material Chemistry of the Ministry of Education, Tianjin Key Laboratory of Metal and Molecule Based Material Chemistry, and Collaborative Innovation Center of Chemical Science and Engineering (Tianjin), Nankai University, Tianjin 300071, China.

出版信息

Chem Commun (Camb). 2017 May 30;53(44):6013-6016. doi: 10.1039/c7cc01136a.

DOI:10.1039/c7cc01136a

PMID:28518199

Abstract

Investigations on metal-organic frameworks (MOFs) as direct catalysts have been well documented, but direct catalysis of the chemical conversion of terminal alkynes and CO as chemical feedstock by MOFs into valuable chemical products has never been reported. We report here two cluster-based MOFs I and II assembled from a multinuclear Gd-cluster and Cu-cluster, displaying high thermal and solvent stabilities. I and II as heterogeneous catalysts possess active catalytic centers [CuI] and [CuI], respectively, exhibiting excellent catalytic performance in the carboxylation reactions of CO with 14 kinds of terminal alkynes under 1 atm and mild conditions. For the first time catalysis of the carboxylation reaction of terminal alkynes with CO by MOF materials without any cocatalyst/additive is reported. This work not only reduces greenhouse gas emission but also provides highly valuable materials, opening a wide space in seeking recoverable catalysts to accelerate the chemical conversion of CO.

摘要

关于金属有机框架材料（MOFs）作为直接催化剂的研究已有充分记载，但从未有过MOFs将端炔烃和CO作为化学原料直接催化转化为有价值化学产品的报道。我们在此报告了两种基于簇的MOFs I和II，它们由多核Gd簇和Cu簇组装而成，具有高热稳定性和溶剂稳定性。I和II作为多相催化剂分别拥有活性催化中心[CuI]和[CuI]，在1个大气压和温和条件下，它们在CO与14种端炔烃的羧化反应中表现出优异的催化性能。首次报道了MOF材料在无任何助催化剂/添加剂的情况下催化端炔烃与CO的羧化反应。这项工作不仅减少了温室气体排放，还提供了极具价值的材料，为寻找可回收催化剂以加速CO的化学转化开辟了广阔空间。

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通过C-C键形成实现CO加速化学转化的基于簇的金属有机框架材料。

Cluster-based MOFs with accelerated chemical conversion of CO through C-C bond formation.

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