Pt-MCM-41 catalysts having loadings of up to 2% Pt have been synthesised us
ing three strategies: (i) direct synthesis from a Pt2+-containing gel, (ii)
exchange of Na+ in Al-MCM-41 (containing 8% aluminium) for Pt2+, (iii) exc
hange of H+ in H-MCM-41 (containing 1% aluminium) for Pt2+. HRTEM confirmed
the retention of the mesoporous structure in the active catalysts and gave
information on Pt particle size and location. Al-27 NMR provided informati
on on the movement of aluminium within the structure during catalyst prepar
ation. Enantioselective hydrogenation of methyl and ethyl pyruvate was cata
lysed by cinchonidine-modified Pt-MCM-41 at 293 K and elevated hydrogen pre
ssures; performance was compared to that provided by the standard reference
catalyst EUROPT-1. Catalysts prepared by strategies (i) and (ii) performed
best, giving values of the enantiomeric excess comparable to those afforde
d by EUROPT-1 at rates moderated by an order of magnitude by mass transfer
effects. Performance was impaired when Pt particle size in the mesopores wa
s so small that conditions favoured racemic reaction.