Formamide Electrosynthesis from Methanol and Ammonia in Water over Pr-Doped MnO<sub>2</sub>
Jiewei Zhu, Jiang Shao, Bai-An Shen, Jixiang Chen, Yifu Yu, Shuyan Song, Xinbo Zhang, Bin Zhang, Bo‐Hang Zhao
Abstract
High Resolution Image Download MS PowerPoint Slide A rare earth element doping strategy is reported to boost the activity and enhance the stability of MnO 2 for selective formamide production through electrocatalytic oxidation coupling (EOC) of methanol and ammonia. MnO 2 doped with 1% Pr was selected as the best candidate with an optimized formamide yield of 211.32 μmol cm –2 h –1, a Faradaic efficiency of 22.63%, and a stability of more than 50 h. The easier formation of Mn 6+ species and the lower dissolution rate of Mn species over Pr-doped MnO 2 revealed by in situ Raman spectra were responsible for the boosted formamide production and enhanced stability. In addition, a two-electrode flow electrolyzer was developed to integrate EOC with C 2 H 2 semihydrogenation for simultaneously producing value-added products in both the anode and cathode.