Spatial Management of CO Diffusion on Tandem Electrode Promotes NH<sub>2</sub> Intermediate Formation for Efficient Urea Electrosynthesis
Yan Wang, Shuai Xia, Jianfang Zhang, Zhengyuan Li, Rui Cai, Cuiping Yu, Yong Zhang, Jingjie Wu, Yucheng Wu
Abstract
Electrocatalytic urea synthesis is a promising alternative to the energy-intensive conventional industrial process. However, it lacks highly active and selective catalyst systems. Herein, we report a Cu/ZnO stacked tandem gas-diffusion electrode (GDE) for selective urea synthesis from electrocatalytic CO 2 and nitrate reduction reactions. The ZnO catalyst layer (CL) segment at the inlet provides a high CO concentration to the downstream Cu CL segment, promoting the conversion of NO 3 – to *NH 2 . The CO-mediated NH 2 formation accelerates the C–N coupling rate for urea synthesis. As a result, the stacked GDE with an optimal ZnO/Cu CL area ratio achieves a high Faradaic efficiency of 37.4% and a high yield of 3.2 μmol h –1 cm –2 for urea at −0.3 V vs RHE under ambient conditions. This work expands the application of tandem electrodes and realizes the cascade C–N coupling reaction.