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Rational Design of Crystalline Covalent Organic Frameworks for Efficient CO Photoreduction with H O

Overview
Journal Angew Chem Int Ed Engl
Specialty Chemistry
Date 2019 Jul 5
PMID 31270914
Citations 36
Authors
Meng Lu
Jiang Liu
Qiang Li
Mi Zhang
Ming Liu
Jin-Lan Wang
Da-Qiang Yuan
Ya-Qian Lan
Affiliations
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Abstract

Solar energy-driven conversion of CO into fuels with H O as a sacrificial agent is a challenging research field in photosynthesis. Herein, a series of crystalline porphyrin-tetrathiafulvalene covalent organic frameworks (COFs) are synthesized and used as photocatalysts for reducing CO with H O, in the absence of additional photosensitizer, sacrificial agents, and noble metal co-catalysts. The effective photogenerated electrons transfer from tetrathiafulvalene to porphyrin by covalent bonding, resulting in the separated electrons and holes, respectively, for CO reduction and H O oxidation. By adjusting the band structures of TTCOFs, TTCOF-Zn achieved the highest photocatalytic CO production of 12.33 μmol with circa 100 % selectivity, along with H O oxidation to O . Furthermore, DFT calculations combined with a crystal structure model confirmed the structure-function relationship. Our work provides a new sight for designing more efficient artificial crystalline photocatalysts.

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