Enhanced Photoelectrochemical Performance of WO3‐Based Composite Photoanode Coupled with Carbon Quantum Dots and NiFe Layered Double Hydroxide

Abstract An attractive photoanode material, WO 3 , has suffered from its limited visible‐light absorption and sluggish surface reaction kinetics, as well as poor stability in neutral electrolytes. Herein, a NiFe/CQD/WO 3 composite photoanode was designed and fabricated, with loading of carbon quantum dots (CQDs) and electrodeposition of NiFe layered double hydroxide. The NiFe/CQD/WO 3 photoanode obtained a photocurrent density of 1.43 mA cm −2 at 1.23 V vs. reversible hydrogen electrode, which is approximately three times higher than that of bare WO 3 . During the test period of 3 h, the stability of WO 3 was improved substantially after the loading of cocatalysts. Furthermore, mechanistic insights of the favored band structure and beneficial charge‐transfer pathway elucidate the high photoelectrochemical performance of the NiFe/CQD/WO 3 composite photoanode.