Conversion
of Ethanol via C–C Splitting on
Noble Metal Surfaces in Room-Temperature Liquid-Phase
Version 2 2019-06-06, 11:48Version 2 2019-06-06, 11:48
Version 1 2019-06-05, 15:03Version 1 2019-06-05, 15:03
Posted on 2019-06-06 - 11:48
Rh-catalyzed decomposition of ethanol
into CO2 and CH4 via C–C bond splitting
is reported in room-temperature
liquid phase under atmospheric pressure. Mechanistic investigations
show that C–C bond splitting of ethanol on the noble metal
surface is rapid, and CO2 forms through the oxidation of
α-CHxO and β-CHx fragments after C–C bond splitting, while
CH4 forms through the hydrogenation of β-CHx utilizing H atoms from −OH, β-CHx, and α-CHxOH fragments.
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Yang, Guangxing; Farsi, Lida; Mei, Yuhan; Xu, Xing; Li, Anyin; Deskins, N. Aaron; et al. (2019). Conversion
of Ethanol via C–C Splitting on
Noble Metal Surfaces in Room-Temperature Liquid-Phase. ACS Publications. Collection. https://doi.org/10.1021/jacs.8b13115