期刊
ACS CATALYSIS
卷 11, 期 4, 页码 1938-1945出版社
AMER CHEMICAL SOC
DOI: 10.1021/acscatal.0c05324
关键词
strong metal-support interaction; alcohol conversion; supported-metal catalysts; acid-base catalysis; FTIR; EELS; SSITKA
资金
- U.S. Department of Energy, Office of Science, Office of Basic Energy Sciences, Chemical Sciences, Geosciences, and Biosciences Division, Catalysis Science Program
- U.S. Department of Energy [DE-AC05-00OR22725]
The study reveals that during the catalytic conversion of 2-propanol on Pd/TiO2 at low temperatures, coverage of Pd sites occurs due to the generation of SMSIs. The SMSIs that appear during the reaction fully reverse upon exposure to O-2 at room temperature, which may have contributed to the challenge of identifying them in the past.
Strong metal-support interactions (SMSIs) and catalyst deactivation have been heavily researched for decades by the catalysis community. The promotion of SMSIs in supported metal oxides is commonly associated with H-2 treatment at high temperature (>500 degrees C), and catalyst deactivation is commonly attributed to sintering, leaching of the active metal, and overoxidation of the metal, as well as strong adsorption of reaction intermediates. Alcohols can reduce metal oxides, and thus we hypothesized that catalytic conversion of alcohols can promote SMSIs in situ. In this work we show, via IR spectroscopy of CO adsorption and electron energy loss spectroscopy (EELS), that during 2-propanol conversion over Pd/TiO2 coverage of Pd sites occurs due to SMSIs at low reaction temperatures (as low as similar to 190 degrees C). The emergence of SMSIs during the reaction (in situ) explains the apparent catalyst deactivation when the reaction temperature is varied. A steady-state isotopic transient kinetic analysis (SSITKA) shows that the intrinsic reactivity of the catalytic sites does not change with temperature when SMSI is promoted in situ; rather, the number of available active sites changes (when a TiOx layer migrates over Pd NPs). SMSI generated during the reaction fully reverses upon exposure to O-2 at room temperature for similar to 15 h, which may have made their identification elusive up to now.
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