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引用次数: 0
摘要
随着对电化学二氧化碳还原反应(CO2RR)的深入研究,产生了许多高选择性催化剂,但其中大多数催化剂的选择性仍不可控。本文首次报道了通过调节加入不同功能配体的金属有机框架中 Cu 的电子态来控制 CH4/C2H4 的选择性,在加入 Cu 的 UiO-66-H (Ce) 复合催化剂 Cu/UiO-66-H (Ce) 上,CH4 的法拉第效率达到 58%;在 Cu/UiO-66-F (Ce) 上,C2H4 的法拉第效率达到 44%。拉曼光谱和 X 射线吸收光谱的现场测量结果表明,配体侧基的吸电子能力通过调节 Cu 的电子状态控制了 MOFs 上的产物选择性。这项研究为开发 MOFs 作为 CO2RR 选择性定制调节平台开辟了新的前景。
Modulating Electronic States of Cu in Metal-Organic Frameworks for Emerging Controllable CH4/C2H4 Selectivity in CO2 Electroreduction
The intensive study of electrochemical CO2 reduction reaction (CO2RR) has resulted in numerous highly selective catalysts, however, most of these still exhibit uncontrollable selectivity. Here, it is reported for the first time the controllable CH4/C2H4 selectivity by modulating the electronic states of Cu incorporated in metal-organic frameworks with different functional ligands, achieving a Faradaic efficiency of 58% for CH4 on Cu-incorporated UiO-66-H (Ce) composite catalysts, Cu/UiO-66-H (Ce) and that of 44% for C2H4 on Cu/UiO-66-F (Ce). In situ measurements of Raman and X-ray absorption spectra revealed that the electron-withdrawing ability of the ligand side group controls the product selectivity on MOFs through the modulation of the electronic states of Cu. This work opens new prospects for the development of MOFs as a platform for the tailored tuning of selectivity in CO2RR.
期刊介绍:
Advanced Science is a prestigious open access journal that focuses on interdisciplinary research in materials science, physics, chemistry, medical and life sciences, and engineering. The journal aims to promote cutting-edge research by employing a rigorous and impartial review process. It is committed to presenting research articles with the highest quality production standards, ensuring maximum accessibility of top scientific findings. With its vibrant and innovative publication platform, Advanced Science seeks to revolutionize the dissemination and organization of scientific knowledge.
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