通过CuFe双原子协同催化高效尿素光合作用

IF 11.5 Q1 CHEMISTRY, PHYSICAL

Chem Catalysis Pub Date : 2025-06-26 DOI:10.1016/j.checat.2025.101433

Yan-Fei Mu, Ji-Li Zhou, Su-Xian Yuan, Meng-Ran Zhang, Huan Pang, Min Zhang, Tong-Bu Lu

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引用次数: 0

摘要

考虑到N2/CO2固有的惰性和较差的C-N偶联活性，光催化将N2和CO2转化为尿素是一个非常理想但艰巨的挑战。本文介绍了一种Cu- o- fe结构的单原子修饰多孔Fe2O3纳米棒（Cu-Fe2O3）光催化剂，用于光催化N2/CO2共还原制尿素。由于Cu/Fe位点的d轨道与CO2/N2的分子轨道接近，CuFe双活性位点可以选择性吸附和激活N2/CO2，从而促进高效的C-N耦合。高静电电位Cu的加入在Fe2O3上产生了局部的静电电位差，使CO2和N2的顺序活化成为可能。因此，Cu-Fe2O3具有迄今为止报道的最高尿素活性（171±12 μmol g−1 h−1）和选择性（>90%）。这项工作为绿色尿素合成和不对称偶联反应提供了一条有前途的途径。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Efficient urea photosynthesis via CuFe dual-atom synergistic catalysis

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Efficient urea photosynthesis via CuFe dual-atom synergistic catalysis

Photocatalytic conversion of N₂ and CO₂ into urea is a highly desirable yet formidable challenge given the inherent inertness of N₂/CO₂ and poor C–N coupling activity. Herein, we introduce a Cu single-atom-decorated porous Fe₂O₃ nanorod (Cu-Fe₂O₃) photocatalyst with a Cu–O–Fe configuration for efficient photocatalytic N₂/CO₂ co-reduction to urea. Because the d-orbitals of the Cu/Fe sites are close to the molecular orbitals of CO₂/N₂, the CuFe dual active sites can selectively adsorb and activate N₂/CO₂, thereby facilitating efficient C–N coupling. The incorporation of the high-electrostatic-potential Cu creates a localized electrostatic-potential difference over Fe₂O₃, enabling the sequential activation of CO₂ and N₂. Consequently, Cu-Fe₂O₃ offers the highest urea activity (171 ± 12 μmol g⁻¹ h⁻¹) and selectivity (>90%) reported to date. This work showcases a promising avenue for green urea synthesis as well as the asymmetric coupling reaction.

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来源期刊

Chem Catalysis

CiteScore

10.50

自引率

6.40%

发文量

期刊介绍： Chem Catalysis is a monthly journal that publishes innovative research on fundamental and applied catalysis, providing a platform for researchers across chemistry, chemical engineering, and related fields. It serves as a premier resource for scientists and engineers in academia and industry, covering heterogeneous, homogeneous, and biocatalysis. Emphasizing transformative methods and technologies, the journal aims to advance understanding, introduce novel catalysts, and connect fundamental insights to real-world applications for societal benefit.