Reactivity trends on transition metals can generally be understood through the d-band model, but no analogous theory exists for transition metal oxides. This limits the generality of analyses in oxide-based catalysis and surface chemistry and has motivated the appearance of numerous descriptors. Here we show that oxygen vacancy formation energy (Δ ) is an inexpensive yet accurate and general descriptor for trends in transition-state energies, which are usually difficult to assess. For rutile-type oxides (MO with M = 3d metals from Ti to Ni), we show that Δ captures the trends in C-O and N-O bond scission of CO, CHOH, NO, and NHOH at oxygen vacancies. The proportionality between Δ and transition-state energies is rationalized by analyzing the oxygen-metal bonds, which change from ionic to covalent from TiO to NiO. Δ may be used to design oxide catalysts, in particular those where lattice oxygen and/or oxygen vacancies participate in the catalytic cycles.
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| http://dx.doi.org/10.1039/d0sc00534g | DOI Listing |
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