一种用于可见光驱动一氧化碳还原的铜钴穴合物。

A CuCo cryptate for the visible light-driven reduction of CO.

作者信息

Jökel Julia, Boydas Esma Birsen, Wellauer Joël, Wenger Oliver S, Robert Marc, Römelt Michael, Apfel Ulf-Peter

机构信息

Fraunhofer UMSICHT Osterfelder Str. 3 46047 Oberhausen Germany

Institute of Chemistry, Humboldt-Universität zu Berlin Brook-Taylor Str. 2 12489 Berlin Germany.

出版信息

Chem Sci. 2023 Oct 27;14(44):12774-12783. doi: 10.1039/d3sc02679e. eCollection 2023 Nov 15.

DOI:10.1039/d3sc02679e

PMID:38020384

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10646873/

Abstract

Among the rare bimetallic complexes known for the reduction of CO, CoCo and ZnCo hexamine cryptates are described as efficient photocatalysts. In close relation to the active sites of natural, CO-reducing enzymes, we recently reported the asymmetric cryptand {NN} ({NN} = N[(CH)SCH(-CH)CHNH(CH)]N) comprising distinct sulphur- and nitrogen-rich binding sites and the corresponding CuM (M = Co, Ni, Cu) complexes. To gain insight into the effect of metals in different oxidation states and sulphur-incorporation on the photocatalytic activity, we herein investigate the CuCo complex of {NN} as catalyst for the visible light-driven reduction of CO. After 24 h irradiation with LED light of 450 nm, CuCo-{NN} shows a high efficiency for the photocatalytic CO-to-CO conversion with 9.22 μmol corresponding to a turnover number of 2305 and a high selectivity of 98% over the competing H production despite working in an acetonitrile/water (4 : 1) mixture. Experiments with mononuclear counterparts and computational studies show that the high activity can be attributed to synergistic catalysis between Cu and Co. Furthermore, it was shown that an increase of the metal distance results in the loss of synergistic effects and rather single-sited Co catalysis is observed.

摘要

在已知的用于还原CO的稀有双金属配合物中，CoCo和ZnCo六胺穴合物被描述为高效光催化剂。与天然的CO还原酶的活性位点密切相关，我们最近报道了不对称穴体{NN}（{NN}=N[(CH)SCH(-CH)CHNH(CH)]N），其包含不同的富含硫和氮的结合位点以及相应的CuM（M = Co、Ni、Cu）配合物。为了深入了解不同氧化态的金属和硫掺入对光催化活性的影响，我们在此研究{NN}的CuCo配合物作为可见光驱动的CO还原催化剂。在用450 nm的LED光照射24小时后，CuCo-{NN}对光催化CO到CO的转化显示出高效率，产生9.22 μmol，对应于2305的周转数，并且尽管在乙腈/水（4∶1）混合物中工作，但相对于竞争性的H生成具有98%的高选择性。单核对应物的实验和计算研究表明，高活性可归因于Cu和Co之间的协同催化。此外，研究表明金属距离的增加会导致协同效应的丧失，并且观察到更多的单位点Co催化。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d258/10646873/bf4962852c58/d3sc02679e-s1.jpg

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一种用于可见光驱动一氧化碳还原的铜钴穴合物。

A CuCo cryptate for the visible light-driven reduction of CO.

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