Add to ORKGAbstract We have successfully employed oxide supported gold catalysts in the gas-phase hydrogenation of acrolein, the ␣,-unsaturated aldehyde being most difficult to hydrogenate at the carbonyl group. The relation of structural characteristics and surface state of these catalysts with respect to their activity and selectivity have been studied by surface analytical techniques and high-resolution transmission electron microscopy which was carried out to elucidate the real crystal structures of gold particles. The performance of gold catalysts formed by various preparation and pretreatment procedures was strongly dependent on the reduction time: Increasing the latter resulted in a high number of multiple twinned gold particles which decrease...
Titania- and zirconia-supported gold particles of 1−5 nm size, prepared by various routes of synthes...
We present a mechanistic study on selective hydrogenation of acrolein over model Pd surfaces—both si...
In order to design catalytic materials, we need to understand the essential causes for material prop...
We have successfully employed oxide supported gold catalysts in the gas-phase hydrogenation of acrol...
The active sites of supported gold catalysts, favoring the adsorption of CO groups of acrolein and s...
The hydrogenation of acrolein on supported gold catalysts has been used as test reaction to study se...
The hydrogenation of acrolein over pure and supported silver has been investigated with a focus on t...
Introduction In recent time, increasing effort has been undertaken in order to answer the question, ...
Secondary phosphine oxides (SPOs) can be used as ligands to stabilize catalytically active gold nano...
The gas-phase hydrogenation of acrolein over silver was studied in a broad pressure range from ∼2 mb...
Includes bibliographical references.The activity (per mass of catalyst) of supported gold catalysts ...
textHigh surface area catalysts have been studied and applied in a wide range of chemical reactions ...
In this work, the selectivity in hydrogenation of acrolein over Fe 3 O 4 -supported Pd nanoparticles...
ABSTRACT: Partial oxidation of alcohols is a topic of great interest in the field of gold catalysis....
Silica, titania, zirconia and alumina supported gold particles of 1–6 nm size, prepared by various s...
Titania- and zirconia-supported gold particles of 1−5 nm size, prepared by various routes of synthes...
We present a mechanistic study on selective hydrogenation of acrolein over model Pd surfaces—both si...
In order to design catalytic materials, we need to understand the essential causes for material prop...
We have successfully employed oxide supported gold catalysts in the gas-phase hydrogenation of acrol...
The active sites of supported gold catalysts, favoring the adsorption of CO groups of acrolein and s...
The hydrogenation of acrolein on supported gold catalysts has been used as test reaction to study se...
The hydrogenation of acrolein over pure and supported silver has been investigated with a focus on t...
Introduction In recent time, increasing effort has been undertaken in order to answer the question, ...
Secondary phosphine oxides (SPOs) can be used as ligands to stabilize catalytically active gold nano...
The gas-phase hydrogenation of acrolein over silver was studied in a broad pressure range from ∼2 mb...
Includes bibliographical references.The activity (per mass of catalyst) of supported gold catalysts ...
textHigh surface area catalysts have been studied and applied in a wide range of chemical reactions ...
In this work, the selectivity in hydrogenation of acrolein over Fe 3 O 4 -supported Pd nanoparticles...
ABSTRACT: Partial oxidation of alcohols is a topic of great interest in the field of gold catalysis....
Silica, titania, zirconia and alumina supported gold particles of 1–6 nm size, prepared by various s...
Titania- and zirconia-supported gold particles of 1−5 nm size, prepared by various routes of synthes...
We present a mechanistic study on selective hydrogenation of acrolein over model Pd surfaces—both si...
In order to design catalytic materials, we need to understand the essential causes for material prop...