Towards Long‐Term Photostability of Nickel Hydroxide/BiVO<sub>4</sub> Photoanodes for Oxygen Evolution Catalysts via In Situ Catalyst Tuning
Rui‐Ting Gao, Dan He, Lijun Wu, Kan Hu, Xianhu Liu, Yiguo Su, Lei Wang
Abstract
Abstract Increasing long‐term photostability of BiVO 4 photoelectrode is an important issue for solar water splitting. The NiOOH oxygen evolution catalyst (OEC) has fast water oxidation kinetics compared to the FeOOH OEC. However, it generally shows a lower photoresponse and poor stability because of the more substantial interface recombination at the NiOOH/BiVO 4 junction. Herein, we utilize a plasma etching approach to reduce both interface/surface recombination at NiOOH/BiVO 4 and NiOOH/electrolyte junctions. Further, adding Fe 2+ into the borate buffer electrolyte alleviates the active but unstable character of etched‐NiOOH/BiVO 4 , leading to an outstanding oxygen evolution over 200 h. The improved charge transfer and photostability can be attributed to the active defects and a mixture of NiOOH/NiO/Ni in OEC induced by plasma etching. Metallic Ni acts as the ion source for the in situ generation of the NiFe OEC over long‐term durability.