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Synthetic Leaves Based on Crystalline Olefin-Linked Covalent Organic Frameworks for Efficient CO 2 Photoreduction with Water.

Na YangWenkai YanZi-Jian ZhouChengcheng TianPeng ZhangHonglai LiuXin-Ping WuChungu XiaSheng DaiXiang Zhu
Published in: Nano letters (2024)
We report, for the first time, a new synthetic strategy for the preparation of crystalline two-dimensional olefin-linked covalent organic frameworks (COFs) based on aldol condensation between benzodifurandione and aromatic aldehydes. Olefin-linked COFs can be facilely crystallized through either a pyridine-promoted solvothermal process or a benzoic anhydride-mediated organic flux synthesis. The resultant COF leaf with high in-plane π-conjugation exhibits efficient visible-light-driven photoreduction of carbon dioxide (CO 2 ) with water (H 2 O) in the absence of any photosensitizer, sacrificial agents, or cocatalysts. The production rate of carbon monoxide (CO) reaches as high as 158.1 μmol g -1 h -1 with near 100% CO selectivity, which is accompanied by the oxidation of H 2 O to oxygen. Both theoretical and experimental results confirm that the key lies in achieving exceptional photoinduced charge separation and low exciton binding. We anticipate that our findings will facilitate new possibilities for the development of semiconducting COFs with structural diversity and functional variability.
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