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Amorphous Double Cocatalyst Enhanced BiVO<sub>4</sub> Photoanode for Efficient Solar-Driven Water Splitting

Guihong Li, Zetian He, Haiyang Li, Guofang Du, Wenfeng Li, Shiqing Ma, Tie Shi, Daimei Chen, Yi-lei Li

2025ACS Applied Materials & Interfaces7 citationsDOI

Abstract

Photoelectrochemical (PEC) water splitting has emerged as an effective method to address energy and environmental challenges. In this study, a novel BiVO 4 /FeOOH/CACo photoanode is developed by integrating FeOOH and cobalt cinnamate (CACo) cocatalysts onto the BiVO 4 surface for enhanced PEC water splitting. Compared with the reversible hydrogen electrode (RHE), the photocurrent density of the fabricated photoanode reached 3.15 mA cm –2 at 1.23 V RHE, which is 3.15 times greater than that of pure BiVO 4, demonstrating good stability. Furthermore, the photoelectrochemical water splitting of hydrogen and oxygen production rates of the photoanode in a seawater environment achieved rates of 4.71 μmol h –1 cm –2 and 2.87 μmol h –1 cm –2, respectively. Systematic characterizations combined with density functional theory (DFT) calculations elucidate the dual cocatalyst synergy: FeOOH serves as a hole transport layer to accelerate carrier migration toward the CACo layer, while their cooperative interaction suppresses electron–hole recombination and enhances photogenerated carrier mobility. This dual cocatalyst system effectively suppresses the recombination of electron–hole pairs, enhances the migration of photogenerated carriers, and improves the photochemical water splitting activity. This study presents a feasible strategy for the application of amorphous cocatalysts in PEC systems.

Topics & Concepts

Materials scienceAmorphous solidWater splittingOptoelectronicsNanotechnologyAmorphous semiconductorsEngineering physicsChemical engineeringThin filmCrystallographyPhotocatalysisCatalysisChemistryBiochemistryEngineeringAdvanced Photocatalysis TechniquesCopper-based nanomaterials and applicationsTiO2 Photocatalysis and Solar Cells