Efficient photochemical hydrogen production under visible-light over artificial photosynthetic systems

Photosynthesis of green plants provides an effective blueprint for transform solar energy into useful hydrogen energy. Thereinto, their hierarchical structures are favorable to the light-harvesting. Meanwhile, the functional components (light-harvesting pigments) can absorb visible wavelengths of sunlight, and offer reaction center for the energy transform. Inspired by these, we contrive an artificial photosynthetic system for the high efficiency of H₂-production rate by introducing a similar functional structure (reticular hierarchical structure) and component (CdS/Pt–TiO₂). The CdS/Pt–TiO₂ with hierarchically reticular structure is prepared by transforming wings into TiO₂ via a sol–gel process, and depositing Pt and CdS nanoparticles onto the TiO₂ substrate by photoreduction and chemical bath deposition method, respectively. Contributing to the couple effect of reticular hierarchical structure and ternary hybrid composition, CdS/Pt–TiO₂ nanocomposites exhibit high visible-light photocatalytic H₂-production rate (12.7% apparent quantum efficiency obtained at 420 nm). This concept provides a new horizon to exploit solar energy for sustainable energy by imitating the photosynthesis process from structure and ingredients.