Abstract

Severe carrier recombination and the slow kinetics of water splitting for photocatalysts hamper their efficient application. Herein, we propose a hydrovoltaic effect-enhanced photocatalytic system in which polyacrylic acid (PAA) and cobaltous oxide (CoO)–nitrogen doped carbon (NC) achieve an enhanced hydrovoltaic effect and CoO–NC acts as a photocatalyst to generate H₂ and H₂O₂ products simultaneously. In this system, called PAA/CoO–NC, the Schottky barrier height between CoO and the NC interface decreases by 33% due to the hydrovoltaic effect. Moreover, the hydrovoltaic effect induced by H⁺ carrier diffusion in the system generates a strong interaction between H⁺ ions and the reaction centers of PAA/CoO–NC, improving the kinetics of water splitting in electron transport and species reaction. PAA/CoO–NC exhibits excellent photocatalytic performance, with H₂ and H₂O₂ production rates of 48.4 and 20.4 mmol g⁻¹ h⁻¹, respectively, paving a new way for efficient photocatalyst system construction.

The construction of efficient photocatalyst system by utilizing hydrovoltaic technology bring promise but a challenge for photocatalytic water splitting. Here, the authors report a hydrovoltaic effect-enhanced photocatalytic system that shows high efficiency and quick kinetics of water splitting.