用于光催化二氧化碳还原的稳定共价有机框架

A stable covalent organic framework for photocatalytic carbon dioxide reduction.

作者信息

Fu Zhiwei, Wang Xiaoyan, Gardner Adrian M, Wang Xue, Chong Samantha Y, Neri Gaia, Cowan Alexander J, Liu Lunjie, Li Xiaobo, Vogel Anastasia, Clowes Rob, Bilton Matthew, Chen Linjiang, Sprick Reiner Sebastian, Cooper Andrew I

机构信息

Department of Chemistry and Materials Innovation Factory , University of Liverpool , 51 Oxford Street , Liverpool L7 3NY , UK . Email:

Stephenson Institute for Renewable Energy , University of Liverpool , Chadwick Building, Peach Street , Liverpool L69 7ZF , UK.

出版信息

Chem Sci. 2019 Nov 21;11(2):543-550. doi: 10.1039/c9sc03800k. eCollection 2020 Jan 14.

DOI:10.1039/c9sc03800k

PMID:32206271

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7069507/

Abstract

Photocatalytic conversion of CO into fuels is an important challenge for clean energy research and has attracted considerable interest. Here we show that tethering molecular catalysts-a rhenium complex, [Re(bpy)(CO)Cl]-together in the form of a crystalline covalent organic framework (COF) affords a heterogeneous photocatalyst with a strong visible light absorption, a high CO binding affinity, and ultimately an improved catalytic performance over its homogeneous Re counterpart. The COF incorporates bipyridine sites, allowing for ligation of the Re complex, into a fully π-conjugated backbone that is chemically robust and promotes light-harvesting. A maximum rate of 1040 μmol g h for CO production with 81% selectivity was measured. CO production rates were further increased up to 1400 μmol g h, with an improved selectivity of 86%, when a photosensitizer was added. Addition of platinum resulted in production of syngas, hence, the co-formation of H and CO, the chemical composition of which could be adjusted by varying the ratio of COF to platinum. An amorphous analog of the COF showed significantly lower CO production rates, suggesting that crystallinity of the COF is beneficial to its photocatalytic performance in CO reduction.

摘要

将CO光催化转化为燃料是清洁能源研究中的一项重要挑战，已引起了广泛关注。在此我们表明，将分子催化剂——一种铼配合物[Re(bpy)(CO)Cl]——以结晶共价有机框架（COF）的形式连接在一起，可得到一种具有强烈可见光吸收、高CO结合亲和力的多相光催化剂，并且最终其催化性能优于均相铼对应物。该COF将联吡啶位点（允许铼配合物连接）纳入到一个化学性质稳定且能促进光捕获的完全π共轭主链中。测得CO生成的最大速率为1040 μmol g⁻¹ h⁻¹，选择性为81%。添加光敏剂后，CO生成速率进一步提高至1400 μmol g⁻¹ h⁻¹，选择性提高到86%。添加铂导致合成气的生成，即H₂和CO的共同生成，其化学组成可通过改变COF与铂的比例来调节。该COF的无定形类似物显示出显著更低的CO生成速率，这表明COF的结晶性有利于其在CO还原中的光催化性能。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/62ed/7069507/4f35bebec43f/c9sc03800k-f1.jpg

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用于光催化二氧化碳还原的稳定共价有机框架

A stable covalent organic framework for photocatalytic carbon dioxide reduction.

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