Structure/activity relationships applied to the hydrogenation of α,β-unsaturated carbonyls: The hydrogenation of 3-butyne-2-one over alumina-supported palladium catalysts

“…This article is rooted in using IR spectroscopy to assess metal crystallite morphology of supported metal catalysts applied to selective hydrogenation reactions [10][11][12], where there is an interest to consider how hydrogen may partition at a metal surface. The following sections of the Introduction will firstly consider how certain metal sites may be linked to hydrogenation activity.…”

“…Whilst the relevance of site-selective chemistry within certain metal-catalysed hydrogenation reactions is noted, it is a non-trivial matter to use IR spectroscopy of chemisorbed hydrogen to discern passive and active adsorption sites. However, FT-IR studies of CO adsorption over, for example, supported Pd catalysts has a role for defining active site distributions, which can then be correlated with observed reaction trends [10][11][12]. Against this background, it is informative to consider milestones in the use of IR techniques combined with CO chemisorption to discern the active site distribution of supported metal catalysts.…”

A Comparison of Experimental Procedures for the Application of Infrared Spectroscopy to Probe the Surface Morphology of an Alumina-Supported Palladium Catalyst

“…This article is rooted in using IR spectroscopy to assess metal crystallite morphology of supported metal catalysts applied to selective hydrogenation reactions [10][11][12], where there is an interest to consider how hydrogen may partition at a metal surface. The following sections of the Introduction will firstly consider how certain metal sites may be linked to hydrogenation activity.…”

“…Whilst the relevance of site-selective chemistry within certain metal-catalysed hydrogenation reactions is noted, it is a non-trivial matter to use IR spectroscopy of chemisorbed hydrogen to discern passive and active adsorption sites. However, FT-IR studies of CO adsorption over, for example, supported Pd catalysts has a role for defining active site distributions, which can then be correlated with observed reaction trends [10][11][12]. Against this background, it is informative to consider milestones in the use of IR techniques combined with CO chemisorption to discern the active site distribution of supported metal catalysts.…”

A Comparison of Experimental Procedures for the Application of Infrared Spectroscopy to Probe the Surface Morphology of an Alumina-Supported Palladium Catalyst

Palladium(II) complexes assembled on solid materials: as catalysts for the –NO2 (nitro) to –NH2 (amine) reactions

Phosgene formation via carbon monoxide and dichlorine reaction over an activated carbon catalyst: Reaction kinetics and mass balance relationships