摘要
The surface properties of oxidic supports and their interaction with the supported metals play critical roles in governing the catalytic activities of oxide‐supported metal catalysts.When metals are supported on reducible oxides,dynamic surface reconstruction phenomena,including strong metal–support interaction(SMSI)and oxygen vacancy formation,complicate the determination of the structural–functional relationship at the active sites.Here,we performed a systematic investigation of the dynamic behavior of Au nanocatalysts supported on flame‐synthesized TiO_(2),which takes predominantly a rutile phase,using CO oxidation above room temperature as a probe reaction.Our analysis conclusively elucidated a negative correlation between the catalytic activity of Au/TiO_(2) and the oxygen vacancy at the Au/TiO_(2) interface.Although the reversible formation and retracting of SMSI overlayers have been ubiquitously observed on Au/TiO_(2) samples,the catalytic consequence of SMSI remains inconclusive.Density functional theory suggests that the electron transfer from TiO_(2) to Au is correlated to the presence of the interfacial oxygen vacancies,retarding the catalytic activation of CO oxidation.
基金
Science and Technology Innovation Program of Hunan Province,Grant/Award Numbers:2020GK2070,2021RC4006
Innovation‐Driven Project of Central South University,Grant/Award Number:2020CX008
China Scholarship Council(CSC)
National Key R&D Program of China,Grant/Award Number:2022YFE0105900
National Natural Science Foundation of China,Grant/Award Number:52276093
National Research Foundation Singapore,Grant/Award Number:CREATE。
