单卟啉-金属原子中心上的可见光开关电子转移用于二氧化碳的高选择性电还原

Visible-light-switched electron transfer over single porphyrin-metal atom center for highly selective electroreduction of carbon dioxide.

作者信息

Yang Deren, Yu Hongde, He Ting, Zuo Shouwei, Liu Xiaozhi, Yang Haozhou, Ni Bing, Li Haoyi, Gu Lin, Wang Dong, Wang Xun

机构信息

Key Lab of Organic Optoelectronics and Molecular Engineering, Department of Chemistry, Tsinghua University, Beijing, 100084, China.

Beijing Synchrotron Radiation Facility, Institute of High Energy Physics, Chinese Academy of Sciences, Beijing, 100049, China.

出版信息

Nat Commun. 2019 Aug 26;10(1):3844. doi: 10.1038/s41467-019-11817-2.

DOI:10.1038/s41467-019-11817-2

PMID:31451689

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6710284/

Abstract

External fields are introduced to catalytic processes to improve catalytic activities. The light field effect plays an important role in electrocatalytic processes, but is not fully understood. Here we report a series of photo-coupled electrocatalysts for CO reduction by mimicking the structure of chlorophyll. The porphyrin-Au catalyst exhibits a high turnover frequency of 37,069 h at -1.1 V and CO Faradaic efficiency (FE) of 94.2% at -0.9 V. Under visible light, the electrocatalyst reaches similar turnover frequency and FE with potential reduced by ~ 130 mV. Interestingly, the light-induced positive shifts of 20, 100, and 130 mV for porphyrin-Co, porphyrin-Cu, and porphyrin-Au electrocatalysts are consistent with their energy gaps of 0, 1.5, and 1.7 eV, respectively, suggesting the porphyrin not only serves as a ligand but also as a photoswitch to regulate electron transfer pathway to the metal center.

摘要

将外部场引入催化过程以提高催化活性。光场效应在电催化过程中起着重要作用，但尚未完全被理解。在此，我们通过模仿叶绿素的结构报道了一系列用于CO还原的光耦合电催化剂。卟啉-金催化剂在-1.1 V时表现出37,069 h的高周转频率，在-0.9 V时CO法拉第效率（FE）为94.2%。在可见光下，该电催化剂在电位降低约130 mV时达到相似的周转频率和FE。有趣的是，卟啉-钴、卟啉-铜和卟啉-金电催化剂的光致正移分别为20、100和130 mV，这与其分别为0、1.5和1.7 eV的能隙一致，表明卟啉不仅作为配体，还作为光开关来调节电子转移至金属中心的途径。

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单卟啉-金属原子中心上的可见光开关电子转移用于二氧化碳的高选择性电还原

Visible-light-switched electron transfer over single porphyrin-metal atom center for highly selective electroreduction of carbon dioxide.

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