Artículos de revistas
Metal And Precursor Effect During 1-Heptyne Selective Hydrogenation Using An Activated Carbon As Support
Fecha
2013-09Registro en:
Lederhos, Cecilia Rosa; Badano, Juan Manuel; Carrara, Nicolás Ricardo; Coloma Pascual, Fernando; Almansa, M. Cristina; et al.; Metal And Precursor Effect During 1-Heptyne Selective Hydrogenation Using An Activated Carbon As Support; Hindawi Publishing Corporation; Scientific World Journal; 2013; 9-2013; 1-9
1537-744X
Autor
Lederhos, Cecilia Rosa
Badano, Juan Manuel
Carrara, Nicolás Ricardo
Coloma Pascual, Fernando
Almansa, M. Cristina
Liprandi, Domingo Antonio
Quiroga, Monica Esther
Resumen
Palladium, platinum and ruthenium supported on activated carbon were used as catalysts for the selective hydrogenation of 1-heptyne, a terminal alkyne. All catalysts were characterized by Temperature Programmed Reduction, X-Ray Diffraction, Transmission Electron Microscopy and X-Ray Photoelectron Spectroscopy. TPR and XPS suggest that the metal in all catalysts is reduced after the pretreatment with H2 at 673 K. The TPR trace of the PdNRX catalyst shows that the support surface groups are greatly modified as a consequence of the use of HNO3 during the catalyst preparation. During the hydrogenation of 1-heptyne, both palladium catalysts were the most active and selective than the platinum and ruthenium catalysts. The activity order of the catalysts is: PdClRX > PdNRX > PtClRX >> RuClRX. This superior performance of PdClRX was attributed in part to the total occupancy of the d electronic levels of the Pd metal that is supposed to promote the rupture of the H2 bond during the hydrogenation reaction. The activity differences between PdClRX and PdNRX catalysts could be attributed to a better accessibility of the substrate to the active sites, as a consequence of steric and electronic effects of the superficial support groups. The order for the selectivity to 1-heptene is: PdClRX = PdNRX > RuClRX > PtClRX, and can be attributed mainly to thermodynamic effects.