Pt-containing nanocomposite catalysts were synthesized by deposition of [Pt
(NH3)(4)](2+) complex ions on several samples of Al pillared clays, differi
ng in the nature of the parent clay and in the pillaring procedure. In part
icular, we compared classical Keggin-Al-13 pillared clays, with a rather op
en microporous network, with the new "Al-13-heidi" pillared clays, containi
ng bulkier polycations. In Keggin-Al-13 pillared clays, Pt deposition occur
red by grafting of the precursor complex ions on specific sites of the pill
ars. Upon subsequent H-2 reduction, mobile Pt species were formed that grew
into large raft-like Pt-0 particles located between the clay layers, causi
ng substantial disruption of the microporous network. In Al-13-heidi pillar
ed clays, on the other hand, diffusion of the [Pt(NH3)(4)](2+) was strongly
hindered, and Pt-0 particles were probably formed chiefly outside the clay
layers. These structural differences translated into different activities
for the reaction of benzene hydrogenation: Pt catalysts supported on Keggin
-Al-13 pillared clays were much more active than a reference Pt/Al2O3 or th
an Pt/Al-13-heidi pillared clays, probably due to the existence of specific
bifunctional sites at the interface between interlayer Pt-0 particles and
acidic Al-containing pillars.