Hydrogenation of 3,4-epoxy-1-butene over Cu-Pd/SiO2 catalysts prepared by electroless deposition

Electroless deposition has been used to prepare Cu-Pd/SiO2 bimetallic catalysts wherein initial Cu coverages are limited only to the preexisting I'd surface. Cu loading on the I'd surface can be systematically varied by modification of deposition kinetic parameters. In this case deposition time was used as the kinetic variable for the preparation of a series of Cu-Pd catalysts. These materials have been characterized using atomic absorption, CO chemisorption, and FT-IR (adsorption of CO), and then evaluated for the hydrogenation of 3,4-epoxy-1-butene, a functionalized olefin having many potential reaction pathways. Catalyst performance and characterization results suggest that Cu is not distributed in a monodisperse manner on the Pd surface, indicating the existence of autocatalytic deposition of Cu on Cu sites. The FT-IR results suggest that although CO adsorption on all sites is suppressed by Cu addition, initial Cu deposition occurs more readily on certain sites. The bimetallic Cu-Pd sites that are formed exhibit unusually high activity for EpB conversion and formation of unsaturated alcohols and aldehydes. This bimetallic effect on catalyst activity and selectivity is best explained, not by the existence of either ligand or ensemble effects, but rather by the bifunctional nature of the Cu-Pd sites present on the surface of these catalysts. (c) 2007 Elsevier B.V. All rights reserved.