XPS and EXAFS study of supported PtSn catalysts obtained by surface organometallic chemistry on metals. Application to the isobutane dehydrogenation

GUILLERMO J. SIRI; JOSÉ M. RAMALLO LÓPEZ; MÓNICA L. CASELLA; JOSÉ L. GARCÍA FIERRO; FÉLIX G. REQUEJO; OSMAR A. FERRETTI

APPLIED CATALYSIS A-GENERAL

Elsevier

Lugar: Amsterdam; Año: 2005 vol. 278 p. 239 - 249

0926-860X

In this work, well defined alumina and silica supported Pt and PtSn catalysts were prepared by surface organometallic reactions and were characterized by TEM, XPS and EXAFS. These catalysts were tested in the catalytic dehydrogenation of isobutane. XPS results show that tin is found under the form of Sn(0) and Sn(II,IV), being the percentage of Sn(0) lower for alumina supported than for silica supported catalysts. Tin modified platinum catalysts, always show a decrease of approximately 1 eVin the BE of Pt, what would be indicative of an electron charge transfer from tin to platinum. When the concentration of Sn(0) is high enough, in our case Sn(0)/Pt~0.3, EXAFS experiments demonstrated the existence of a PtSn alloy diluting metallic Pt atoms, for both PtSn/gamma-Al2O3 and PtSn/SiO2. This PtSn alloy seems to be not active in the dehydrogenation reaction; however, it is very important for selectivity and stability, inhibiting cracking and coke formation reactions. The ensemble of our catalytic, XPS and EXAFS results, show that bimetallic PtSn/gamma-Al2O3 catalysts, prepared via SOMC/M techniques, can be submitted to several sequential reaction–regeneration cycles, recovering the same level of initial activity each time and that the nature of the catalytic surface remains practically without modifications.