Abstract
Oxygen evolution reaction (OER) is of great importance in splitting water. However, the sluggish OER kinetics at the anode severely hinders the H2 evolution at the cathode which is a crucial procedure for energy storage. Herein, we report the synthesis of a new OER catalyst of Co(OH)x(WO[Formula: see text] via a one-step hydrothermal method, where the incorporation of WO[Formula: see text] as a condenser greatly enhanced the electrocatalytic activity of Co(OH)2 toward OER. Moreover, the introduction of mesoporous carbon (MC) further improves the electrocatalytic performance of Co(OH)x(WO[Formula: see text] by forming the nanocomposites of Co(OH)x(WO[Formula: see text]/MC. The synergism between Co(OH)2 and WO[Formula: see text] and the synergistic catalytic effect of Co(OH)x(WO[Formula: see text] and MC majorly contributed to the apparently enhanced electrocatalysis of Co(OH)x(WO[Formula: see text]/MC toward OER. This work provides an efficient strategy to improve the electrocatalytic activity of Co(OH)2 by introducing WO[Formula: see text] and forming nanocomposites between Co(OH)x(WO[Formula: see text] and MC for low-cost, convenient and highly efficient water oxidation.
Published Version
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