Metallization-Prompted Robust Porphyrin-Based Hydrogen-Bonded Organic Frameworks for Photocatalytic CO2 Reduction

Angewandte Chemie Pub Date : 2021-12-07 DOI:10.1002/ange.202115854

Qi Yin, Eugeny V. Alexandrov, Duan-Hui Si, Qian-Qian Huang, Zhi-Bin Fang, Yuan Zhang, An-An Zhang, Wei-Kang Qin, Yu-Lin Li, Tian-Fu Liu, Davide M. Proserpio

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Abstract

Under topological guidance, the self-assembly process based on a tetratopic porphyrin synthon results in a hydrogen-bonded organic framework (HOF) with the predicted square layers topology (sql) but unsatisfied stability. Strikingly, simply introducing a transition metal in the porphyrin center does not change the network topology but drastically causes noticeable change on noncovalent interaction, orbital overlap, and molecular geometry, therefore ultimately giving rise to a series of metalloporphyrinic HOFs with high surface area, and excellent stability (intact after being soaked in boiling water, concentrated HCl, and heated to 270 °C). On integrating both photosensitizers and catalytic sites into robust backbones, this series of HOFs can effectively catalyze the photoreduction of CO₂ to CO, and their catalytic performances greatly depend on the chelated metal species in the porphyrin centers. This work enriches the library of stable functional HOFs and expands their applications in photocatalytic CO₂ reduction.

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金属化促进的卟啉基氢键有机框架光催化CO2还原

在拓扑结构的指导下，基于四异位卟啉合成的自组装过程得到了具有预测的方形层拓扑结构的氢键有机骨架(HOF)，但稳定性不理想。引人注目的是，简单地在卟啉中心引入过渡金属不会改变网络拓扑结构，但会引起非共价相互作用、轨道重叠和分子几何结构的显著变化，从而最终产生一系列具有高表面积、优异稳定性(在沸水、浓HCl浸泡并加热到270°C后完好无损)的金属卟啉hof。通过将光敏剂和催化位点整合为坚固的骨架，该系列hof可以有效地催化CO2光还原为CO，其催化性能很大程度上取决于卟啉中心的螯合金属种类。这项工作丰富了稳定功能的HOFs库，扩展了它们在光催化CO2还原中的应用。

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来源期刊

Angewandte Chemie 化学科学, 有机化学, 有机合成

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1 months