Pt/γ-Al2O3 catalysts were prepared using hydroxyl-terminated generation four (G4OH) PAMAM dendrimers
as the templating agents and the various steps of the preparation process were monitored by extended X-ray
absorption fine structure (EXAFS) spectroscopy. The EXAFS results indicate that, upon hydrolysis, chlorine
ligands in the H2PtCl6 and K2PtCl4 precursors were partially replaced by aquo ligands to form [PtCl3(H2O)3]+
and [PtCl2(H2O)2] species, respectively. The results further suggest that, after interaction of such species with
the dendrimer molecules, chlorine ligands from the first coordination shell of Pt were replaced by nitrogen
atoms from the dendrimer interior, indicating that complexation took place. This process was accompanied
by a substantial transfer of electron density from the dendrimer to platinum, indicating that the dendrimer
plays the role of a ligand. Following treatment of the H2PtCl6/G4OH and K2PtCl4/G4OH complexes with
NaBH4, no substantial changes were observed in the electronic or coordination environment of platinum,
indicating that metal nanoparticles were not formed during this step under our experimental conditions.
However, when the reduction treatment was performed with H2, the formation of extremely small platinum
clusters, incorporating no more than four Pt atoms was observed. The nuclearity of these clusters depends on
the length of the hydrogen treatment. These Pt species remained strongly bonded to the dendrimer. Formation
of larger platinum nanoparticles, with an average diameter of approximately 10 Å, was finally observed after
the deposition and drying of the H2PtCl6/G4OH nanocomposites on a γ-Al2O3 surface, suggesting that the
formation of such nanoparticles may be related to the collapse of the dendrimer structure. The platinum
nanoparticles formed appear to have high mobility because subsequent thermal treatment in O2/H2, used to
remove the dendrimer component, led to further sintering.
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