Solar‐Driven Hydrogen Peroxide Production via BiVO<sub>4</sub>‐Based Photocatalysts
Hui Ling Tan, Casandra Hui Teng Chai, Jerry Zhi Xiong Heng, Quyen Vu Thi, Xuelian Wu, Yun Hau Ng, Enyi Ye
Abstract
Abstract Solar hydrogen peroxide (H 2 O 2 ) production has garnered increased research interest owing to its safety, cost‐effectiveness, environmental friendliness, and sustainability. The synthesis of H 2 O 2 relies mainly on renewable resources such as water, oxygen, and solar energy, resulting in minimal waste. Bismuth vanadate (BiVO 4 ) stands out among various oxide semiconductors for selective H 2 O 2 production under visible light via direct two‐electron oxygen reduction reaction (ORR) and two‐electron water oxidation reaction (WOR) pathways. Significant advancements have been achieved using BiVO 4 ‐based materials in solar H 2 O 2 production over the last decade. This review explores advancements in BiVO 4 ‐based photocatalysts for H 2 O 2 production, focusing on photocatalytic powder suspension (PS) and photoelectrochemical (PEC) systems, representing the main approaches for heterogenous artificial photosynthesis. An overview of fundamental principles, performance assessment methodologies, photocatalyst and photoelectrode development, and optimization of reaction conditions is provided. While diverse strategies, such as heterojunction, doping, crystal facet engineering, cocatalyst loading, and surface passivation, have proven effective in enhancing H 2 O 2 generation, this review offers insights into their similar and distinct implementations within the PS and PEC systems. The challenges and future prospects in this field are also discussed to facilitate the rational design of high‐performing BiVO 4 ‐based photocatalysts and photoelectrodes for H 2 O 2 generation under visible light.