Preparation of InP quantum dots-TiO nanoparticle composites with enhanced visible light induced photocatalytic activity

Environmentally friendly InP-based quantum dots (QDs) are expected to be ideal visible-light-harvesting materials because of their unique photophysical properties. Herein, we report on the results of using a combination of InP/ZnSe (core/shell) QDs and TiO 2 nanoparticles (NPs) as visible-light-responsive photocatalysts. Strong negatively charged sulfonate functional ligands were introduced onto the InP/ZnSe QD surface, and the negatively charged InP/ZnSe QDs were electrostatically conjugated to the oppositely charged TiO 2 NP surface. Scanning electron microscopy images confirmed that the entire TiO 2 surface was densely coated with QDs, and the QD-TiO 2 interaction was maintained in acidic and neutral media. The band-edge photoluminescence (PL) intensity of the QDs was reduced after they were linked to the TiO 2 , indicating that the photoexcited electrons in the InP/ZnSe QDs were readily transferred to the TiO 2 . The spatially separated photoinduced charge carriers with suppressed charge recombination of the InP/ZnSe QD-TiO 2 conjugates enhanced the photocatalytic degradation efficiency of rhodamine B dye. Both the charge generation over a broad solar spectral range and the electron-hole separation capabilities of the InP/ZnSe QD-TiO 2 can provide many new possibilities for solar energy harvesting systems. Berry-like InP/ZnSe (core/shell) quantum dot-TiO 2 nanoparticle composites were prepared via electrostatic interactions. The visible-light response InP/ZnSe quantum dot-TiO 2 nanoparticle composites showed high photocatalytic activity.