Single Atom Ag Bonding Between PF3T Nanocluster and TiO 2 Leads the Ultra-Stable Visible-Light-Driven Photocatalytic H 2 Production.

Atomic Ag cluster bonding is employed to reinforce the interface between PF3T nano-cluster and TiO 2 nanoparticle. With an optimized Ag loading (Ag/TiO 2  = 0.5 wt%), the Ag atoms will uniformly disperse on TiO 2 thus generating a high density of intermediate states in the band gap to form the electron channel between the terthiophene group of PF3T and the TiO 2 in the hybrid composite (denoted as T@Ag05-P). The former expands the photon absorption band width and the latter facilitates the core-hole splitting by injecting the photon excited electron (from the excitons in PF3T) into the conduction band (CB) of TiO 2 . These characteristics enable the high efficiency of H 2 production to 16 580 µmol h -1  g -1 and photocatalysis stability without degradation under visible light exposure for 96 h. Compared to that of hybrid material without Ag bonding (TiO 2 @PF3T), the H 2 production yield and stability are improved by 4.1 and 18.2-fold which shows the best performance among existing materials in similar component combination and interfacial reinforcement. The unique bonding method offers a new prospect to accelerate the development of photocatalytic hydrogen production technologies.