Wet-Chemistry Strong Metal-Support Interactions in Titania-Supported Au Catalysts.

Classical strong metal-support interactions (SMSI), which play a crucial role in the preparation of supported metal nanoparticle catalysts, is one of the most important concepts in heterogeneous catalysis. The conventional wisdom for construction of classical SMSI involves in redox treatments at high-temperatures by molecular oxygen or hydrogen, sometimes causing sintered metal nanoparticles before SMSI formation. Herein, we report that the aforementioned issue can be effectively avoided by a wet-chemistry methodology. As a typical example, we demonstrate a new concept of wet-chemistry SMSI (wcSMSI) that can be constructed on titania-supported Au nanoparticles (Au/TiO-wcSMSI), where the key is to employ a redox interaction between Au and Ti precursors in aqueous solution. The wcSMSI is evidenced by covering Au nanoparticles with the TiO overlayer, electronic interaction between Au and TiO, and suppression of CO adsorption on Au nanoparticles. Owing to the wcSMSI, the Au-TiO interface with an improved redox property is favorable for oxygen activation, accelerating CO oxidation. In addition, the oxide overlayer efficiently stabilizes the Au nanoparticles, achieving sinter-resistant Au/TiO-wcSMSI catalyst in CO oxidation.