Allylic alcohols hydrogen pressure effect

Akashi and coworkers prepared small platinum nanoparticles by ethanol reduction of PtCl in the presence of various vinyl polymers with amide side chains [49]. These authors studied the effects of molecular weight and molar ratio [monomeric unit]/[Pt] on the particle sizes and size distributions by electron microscopy, and in some cases by the dispersion stability of the Pt colloids. The hydrogenation in aqueous phase of allyl alcohol was used as a model reaction to examine the change in catalytic activity of polymer-stabilized Pt colloids upon addition of Na2S04 to the reaction solution. The catalytic tests were performed in water or in Na2S04 aqueous solution at 25 °C under atmospheric pressure of... 

This finding is the consequence of the distribution of various ruthenium(II) hydrides in aqueous solutions as a function of pH [RuHCl(mtppms)3] is stable in acidic solutions, while under basic conditions the dominant species is [RuH2(mtppms)4] [10, 11]. A similar distribution of the Ru(II) hydrido-species as a function of the pH was observed with complexes of the related p-monosulfo-nated triphenylphosphine, ptpprns, too [116]. Nevertheless, the picture is even more complicated, since the unsaturated alcohol saturated aldehyde ratio depends also on the hydrogen pressure, and selective formation of the allylic alcohol product can be observed in acidic solutions (e.g., at pH 3) at elevated pressures of H2 (10-40 bar [117, 120]). (The effects of pH on the reaction rate of C = 0 hydrogenation were also studied in detail with the [IrCp (H20)3]2+ and [RuCpH(pta)2] catalyst precursors [118, 128].)... 

Highly diastereoselective hydrogenation of the chiral allylic alcohols 3 and 4 is obtained with this Rh(I) catalyst at elevated hydrogen pressures (640 psi). At low pressures, the catalyst effects interconversion of 3 and 4. Hydrogenation of 3 and 4 catalyzed by Crab-... 

Geraniol or nerol can be converted to citronellol in 96-99% ee in quantitative yield without saturation of the C(6)-C(7) double bond (eq 6). The S C ratio approaches 50000. The use of alcoholic solvents such as methanol or ethanol and initial H2 pressure greater than 30 atm is required to obtain high enantioselectivity. Diastereoselective hydrogenation of the enantiomerically pure al-lylic alcohol with an azetidinone skeleton proceeds at atmospheric pressure in the presence of an (i )-BINAP-Ru complex to afford the (3-methyl product, a precursor of ip-methylcarbapenem antibiotics (eq 7). Racemic allylic alcohols such as 3-methyl-2-cyclohexenol and 4-hydroxy-2-cyclopentenone can be effectively resolved by the BINAP-Ru-catalyzed hydrogenation (eq 8). ... 

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