Synthesis of Highly Active Si-doped TiO2 Nanotube/SnS Hybrids for Photocatalytic Degradation of Toxic Dyes

Heterostructures with nanoscale sizes have great superiorities in photocatalytic environment decontaminant because of their efficient interface charge transfer and great surface area. This work reports the facile fabrication of nano-tubular TiO2 and Si-doped TiO2 (NTs) hybridizing SnS nanocrystallites and their high-efficient photocatalytic activity. The fabricated nanostructures show wide light absorption in the UV-visible region. The SBET, light absorption, hydrophilicity, and photo-induced super hydrophilicity were enhanced by Si-doping and SnS modification. Moreover, high-efficient interface charge transfer was produced after the SnS modification and further enhanced by the Si doping because of band structure modulation. Thus, the Si-doped TiO2 nanotubes/SnS heterostructures showed a remarkably enhanced photocatalytic and Fenton-like photocatalytic activities in dye wastewater treatment than the TiO2 NTs. This work suggests potential materials and their facile fabrication process for the photocatalytic application of environmental decontamination.

In-situ Generating Cu2O/Cu Heterointerfaces on Cu2O Cube Surface to Enhance Interface Charge Transfer for Rochow Reaction

In heterogeneous catalysis, the design and construction of the desired oxide-metal interface are critical to catalytic function due to the significant interfacial effects However, there are still challenges and obscurities...