Hydrogen-Etched TiO2-x as Efficient Support of Gold Catalysts for Water-Gas Shift Reaction

Hydrogen-etching technology was used to prepare TiO2-x nanoribbons with abundant stable surface oxygen vacancies. Compared with traditional Au-TiO2, gold supported on hydrogen-etched TiO2-x nanoribbons had been proven to be efficient and stable water-gas shift (WGS) catalysts. The disorder layer and abundant stable surface oxygen vacancies of hydrogen-etched TiO2-x nanoribbons lead to higher microstrain and more metallic Au-0 species, respectively, which all facilitate the improvement of WGS catalytic activities. Furthermore, we successfully correlated the WGS thermocatalytic activities with their optoelectronic properties, and then tried to understand WGS pathways from the view of electron flow process. Hereinto, the narrowed forbidden band gap leads to the decreased Ohmic barrier, which enhances the transmission efficiency of hot-electron flow. Meanwhile, the abundant surface oxygen vacancies are considered as electron traps, thus promoting the flow of hot-electron and reduction reaction of H2O. As a result, the WGS catalytic activity was enhanced. The concept involved hydrogen-etching technology leading to abundant surface oxygen vacancies can be attempted on other supported catalysts for WGS reaction or other thermocatalytic reactions.