Spin‐Enhanced O−H Cleavage in Electrochemical Water Oxidation
Qing Huang, Shijie Xie, Jinjie Hao, Zijing Ding, Chuang Zhang, Hua Sheng, Jincai Zhao
Abstract
Abstract Herein we report the vital role of spin polarization in proton‐transfer‐mediated water oxidation over a magnetized catalyst. During the electrochemical oxygen evolution reaction (OER) over ferrimagnetic Fe 3 O 4 , the external magnetic field induced a remarkable increase in the OER current, however, this increment achieved in weakly alkaline pH (pH 9) was almost 20 times that under strongly alkaline conditions (pH 14). The results of the surface modification experiment and H/D kinetic isotope effect investigation confirm that, at weakly alkaline pH, during the nucleophilic attack of Fe IV =O by molecular water, the magnetized Fe 3 O 4 catalyst polarizes the spin states of the nucleophilic attacking intermediates. The spin‐enhanced singlet O−H cleavage and triplet O−O bonding occur synergistically, which promotes the O 2 generation more significantly than the strongly alkaline case involving only spin‐enhanced O−O bonding.