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Manipulating the Spin State of Co Sites in Metal-Organic Frameworks for Boosting CO 2 Photoreduction.

Kang SunYan HuangQingyu WangWendi ZhaoXusheng ZhengJun JiangHai-Long Jiang
Published in: Journal of the American Chemical Society (2024)
Photocatalytic CO 2 reduction holds great potential for alleviating global energy and environmental issues, where the electronic structure of the catalytic center plays a crucial role. However, the spin state, a key descriptor of electronic properties, is largely overlooked. Herein, we present a simple strategy to regulate the spin states of catalytic Co centers by changing their coordination environment by exchanging the Co species into a stable Zn-based metal-organic framework (MOF) to afford Co-OAc , Co-Br , and Co-CN for CO 2 photoreduction. Experimental and DFT calculation results suggest that the distinct spin states of the Co sites give rise to different charge separation abilities and energy barriers for CO 2 adsorption/activation in photocatalysis. Consequently, the optimized Co-OAc with the highest spin-state Co sites presents an excellent photocatalytic CO 2 activity of 2325.7 μmol·g -1 ·h -1 and selectivity of 99.1% to CO, which are among the best in all reported MOF photocatalysts, in the absence of a noble metal and additional photosensitizer. This work underlines the potential of MOFs as an ideal platform for spin-state manipulation toward improved photocatalysis.
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