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Mesostructure-Specific Configuration of *CO Adsorption for Selective CO2 Electroreduction to C2+ Products
Angewandte Chemie International Edition ( IF 16.9 ) Pub Date : 2024-09-02 , DOI: 10.1002/anie.202413832 Zaiqi Li 1 , Bin Sun 1 , Difei Xiao 1 , Hongli Liu 1 , Zeyan Wang 1 , Yuanyuan Liu 1 , Zhaoke Zheng 1 , Peng Wang 1 , Ying Dai 2 , Baibiao Huang 1 , Hefeng Cheng 1
Angewandte Chemie International Edition ( IF 16.9 ) Pub Date : 2024-09-02 , DOI: 10.1002/anie.202413832 Zaiqi Li 1 , Bin Sun 1 , Difei Xiao 1 , Hongli Liu 1 , Zeyan Wang 1 , Yuanyuan Liu 1 , Zhaoke Zheng 1 , Peng Wang 1 , Ying Dai 2 , Baibiao Huang 1 , Hefeng Cheng 1
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Hydrophobic ordered CuO mesostructures, specifically mesoporous m-CuO and cylindrical c-CuO, were rationally designed by templated routes, which exhibited favored adsorption for *CObridge and *COtop intermediates, respectively. Remarkably, the preferred *CObridge adsorption on the m-CuO catalyst promoted the selective generation of C2+ alcohols, whereas the *COtop intermediate on the c-CuO catalysts accelerated CO2 electroreduction to C2H4.
中文翻译:
用于选择性 CO2 电还原为 C2+ 产物的 *CO 吸附的介孔结构特异性配置
疏水有序 CuO 介层结构,特别是介孔 m-CuO 和圆柱形 c-CuO,是通过模板化路线合理设计的,分别表现出对 *CO桥和 *CO顶部中间体的吸附。值得注意的是,m-CuO 催化剂上的首选 *CO桥吸附促进了 C2+ 醇的选择性生成,而 c-CuO 催化剂上的 *CO顶部中间体加速了 CO2 电还原为 C2H4。
更新日期:2024-09-02
中文翻译:
用于选择性 CO2 电还原为 C2+ 产物的 *CO 吸附的介孔结构特异性配置
疏水有序 CuO 介层结构,特别是介孔 m-CuO 和圆柱形 c-CuO,是通过模板化路线合理设计的,分别表现出对 *CO桥和 *CO顶部中间体的吸附。值得注意的是,m-CuO 催化剂上的首选 *CO桥吸附促进了 C2+ 醇的选择性生成,而 c-CuO 催化剂上的 *CO顶部中间体加速了 CO2 电还原为 C2H4。
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