Materials Science and Chemistry

Biography

Biography: Gianfranco Pacchioni

Abstract

Reduced oxide supports often exhibit a higher catalytic activity than the stoichiometric surface. Examples are production of liquid fuels from lignocellulose or CO oxidation to CO₂. Despite the very different reactions, the catalysts are similar: Ru/TiO₂ and Ru/ZrO₂ in biomass conversion and Au/TiO₂ and Au/ZrO₂ in CO oxidation. The common denominator is that removing oxygen from the oxide surface, with formation of oxygen vacancies, results in enhanced catalytic activity. The reasons are clearly identified by studying, with a density functional theory approach, the profile for the reactions where a reduced surface gives lower barriers. However, while TiO₂ is a reducible oxide, ZrO₂ is not, at least if based on measures of bulk reducibility. We will show that several mechanism, in particular nanostructuring and formation of metal/oxide interfaces, can drastically change the surface chemistry of an oxide making zirconia reducible and as active as titania in catalysis by oxides.