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• W2017057304 abstract "The surface chemistry of 2-butanol is explored on clean Pd(100), c(2 × 2)-O/Pd(100) and p(2 × 2)-O/Pd(100) surfaces by means of temperature-programmed desorption, reflection–absorption infrared and X-ray photoelectron spectroscopies. 2-Butanol adsorbs molecularly on clean and oxygen-covered Pd(100) below ∼ 190 K, but then appears to react to form 2-butoxide species at ∼ 200 K. Both 2-butanone and 2-butanol desorb from the clean surface at ∼ 226 K, by β-hydride elimination from the 2-butoxide species and rehydrogenation of the 2-butoxide, respectively. In contrast, almost exclusively 2-butanone is formed on oxygen-covered surfaces. Butanone desorbs at ∼ 195 K and ∼ 260 K from c(2 × 2)-O/Pd(100) with the 195 K peak being the most intense. However, on p(2 × 2)-O/Pd(100), 2-butanone desorbs at ∼ 195 K and ∼ 295 K, and the latter peak is the most intense. The ∼ 195 K, 2-butanone state is proposed to occur due to abstraction by adsorbed atomic oxygen and the change in relative intensity of these features is ascribed to the lower ability of surface hydroxyl groups to facilitate β-hydride elimination on oxygen-covered surfaces. Further heating results in the formation of hydrogen and carbon monoxide and leaves a small amount of carbon deposited on the surface." @default.
• W2017057304 created "2016-06-24" @default.
• W2017057304 creator A5016512168 @default.
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• W2017057304 date "2010-08-01" @default.
• W2017057304 modified "2023-10-17" @default.
• W2017057304 title "The adsorption and reaction of 2-butanol on clean and oxygen-covered Pd(100)" @default.
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• W2017057304 doi "https://doi.org/10.1016/j.susc.2010.04.023" @default.
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