Continuous Charge Transport in Carbon Nitride Modulated by Interfacial Chemical Bond and Homophase Junction to Boost Photocatalytic Hydrogen Production

Efficient separation of photogenerated electrons and holes is of key importance in photocatalysis. Tuning the charge separation pathway is significant but still suffering from low efficiency for the charge extraction from semiconductors. Herein, taking 2D g-C₃N₄ (CN) nanosheets as a model photocatalyst, it was found the decoration of homophase junction between brookite TiO₂ rods and nanoparticles (B_N-B_R) onto CN can effectively modulate photogenerated charge extraction and transfer in B_N-B_R/CN composites. The B_N-B_R/CN exhibits a remarkably enhanced photocatalytic H₂ evolution under visible light irradiation (λ>420 nm) compared with the single component. A continuous electron transfer channel constructed by an interfacial chemical bond Ti−O−N between CN and brookite rods (B_R) and B_N-B_R homophase junction between brookite nanoparticles and rods was proposed to benefit the charge extraction and transfer. This work provides a strategy to tune the charge separation and transfer to facilitate the photocatalytic performance in heterogeneous photocatalysis.