A Si Photocathode Protected and Activated with a Ti and Ni Composite Film for Solar Hydrogen Production

An efficient, stable and scalable hybrid photoelectrode for visible‐light‐driven H₂ generation in an aqueous pH 9.2 electrolyte solution is reported. The photocathode consists of a p‐type Si substrate layered with a Ti and Ni‐containing composite film, which acts as both a protection and electrocatalyst layer on the Si substrate. The film is prepared by the simple drop casting of the molecular single‐source precursor, [{Ti₂(OEt)₉(NiCl)}₂] (TiNi_pre), onto the p‐Si surface at room temperature, followed by cathodic in situ activation to form the catalytically active TiNi film (TiNi_cat). The p‐Si|TiNi_cat photocathode exhibits prolonged hydrogen generation with a stable photocurrent of approximately ?5 mA cm^?2 at 0 V vs. RHE in an aqueous pH 9.2 borate solution for several hours, and serves as a benchmark non‐noble photocathode for solar H₂ evolution that operates efficiently under neutral–alkaline conditions.