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BaTiO3-x N y : Highly Basic Oxide Catalyst Exhibiting Coupling of Electrons at Oxygen Vacancies with Substituted Nitride Ions

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JOURNAL OF THE AMERICAN CHEMICAL SOCIETY
卷 145, 期 48, 页码 25976-25982

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AMER CHEMICAL SOC
DOI: 10.1021/jacs.3c10727

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The base strength of oxide catalysts is determined by the electron charge distribution between cations and anions. This study demonstrates the enhancement of catalytic basicity through selective doping of nitride ions at oxygen vacancy sites. The formation of oxynitride creates strong Lewis base sites that facilitate catalytic activation and improve reaction efficiency.
The base strength of oxide catalysts is controlled by the electron charge distribution between cations and anions, with unsaturated oxygen ions that have lone pair electrons typically acting as basic sites. Substitution of oxide ions with anions that have different valences, such as nitride and hydride ions, can often generate basic sites. It is plausible that electrons trapped at oxygen vacancy sites could provide increased electron density and shift the highest occupied molecular orbital energy levels of anions upward in the case that the oxygen vacancies couple with surface-substituted anions. The present work demonstrates that high catalytic basicity can be obtained via site-selective doping of anions at face-sharing Ti2O9 dimer sites with oxygen vacancies in BaTiO3-x. This improved basicity stems from the coupling of substituted nitride ions to electrons at oxygen vacancies. The oxynitride BaTiO3-xNy was found to contain nitride ions that have increased electronic charge density on the basis of such interactions. Enhanced surface basicity following doping with nitride ion was also confirmed by CO2 temperature-programmed desorption and infrared spectroscopy in conjunction with the adsorption of CHCl3. The strong Lewis base sites resulting from the formation of the oxynitride evidently facilitated the catalytic activation of C-H bonds to promote Knoevenagel condensation reactions between aldehydes and active methylene compounds with pK(a) values of up to 28.9.

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