Add to ORKGThe selective hydrogenation of alkynes to alkenes is an important synthetic process in the chemical industry. It is commonly accomplished using palladium catalysts that contain surface modifiers, such as lead and silver. Here we report that the adsorption of nitrogen-containing bases on gold nanoparticles results in a frustrated Lewis pair interface that activates H2 heterolytically, allowing an unexpectedly high hydrogenation activity. The so-formed tight-ion pair can be selectively transferred to an alkyne, leading to a cis isomer; this behavior is controlled by electrostatic interactions. Activity correlates with H2 dissociation energy, which depends on the basicity of the ligand and its reorganization on activation of hydrogen. High sur...
Secondary ligand-metal interactions are decisive in many catalytic transformations. While arene-gold...
We report a combined experimental and theoretical investigation of the unusual catalytic properties ...
Designing heterogeneous metal‐free catalysts for hydrogenation is a long‐standing challenge in catal...
Pyrolysis of Au(OAc)<sub>3</sub> in the presence of 1,10-phenanthroline over TiO<sub>2</sub> furnis...
© 2017 American Chemical Society. Gold nanoparticles (AuNPs) display distinct characteristics as hyd...
We report a quantitative kinetic evaluation and study of support effects for partial alkyne hydrogen...
Supported gold nanoparticles are emerging catalysts for heterogeneous catalytic reactions, including...
The interaction of the organic ligands with metal nanoparticle has a very important role for applica...
Single-atom heterogeneous catalysts with welldefined architectures are promising for deriving struct...
The catalytic activity of Au<sub>25</sub>(SR)<sub>18</sub> nanoclusters (R = C<sub>2</sub>H<sub>4</s...
We report on the excellent stereo and chemoselectivity of nanosized silver and gold catalysts in the...
Water adsorbed at the metal–support interface (MSI) plays an important role in multiple reactions. D...
Gold has untapped potential in terms of selectivity in the reduction of targeted chemical functions ...
[EN] Catalysts based on gold nanoclusters supported by different materials have been used for the se...
A joint experimental/computational effort to elucidate the mechanism of dihydrogen activation by a g...
Secondary ligand-metal interactions are decisive in many catalytic transformations. While arene-gold...
We report a combined experimental and theoretical investigation of the unusual catalytic properties ...
Designing heterogeneous metal‐free catalysts for hydrogenation is a long‐standing challenge in catal...
Pyrolysis of Au(OAc)<sub>3</sub> in the presence of 1,10-phenanthroline over TiO<sub>2</sub> furnis...
© 2017 American Chemical Society. Gold nanoparticles (AuNPs) display distinct characteristics as hyd...
We report a quantitative kinetic evaluation and study of support effects for partial alkyne hydrogen...
Supported gold nanoparticles are emerging catalysts for heterogeneous catalytic reactions, including...
The interaction of the organic ligands with metal nanoparticle has a very important role for applica...
Single-atom heterogeneous catalysts with welldefined architectures are promising for deriving struct...
The catalytic activity of Au<sub>25</sub>(SR)<sub>18</sub> nanoclusters (R = C<sub>2</sub>H<sub>4</s...
We report on the excellent stereo and chemoselectivity of nanosized silver and gold catalysts in the...
Water adsorbed at the metal–support interface (MSI) plays an important role in multiple reactions. D...
Gold has untapped potential in terms of selectivity in the reduction of targeted chemical functions ...
[EN] Catalysts based on gold nanoclusters supported by different materials have been used for the se...
A joint experimental/computational effort to elucidate the mechanism of dihydrogen activation by a g...
Secondary ligand-metal interactions are decisive in many catalytic transformations. While arene-gold...
We report a combined experimental and theoretical investigation of the unusual catalytic properties ...
Designing heterogeneous metal‐free catalysts for hydrogenation is a long‐standing challenge in catal...