Add to ORKGThe efficiency of the supported systems is determined by both the nature of the support and by the method ofpreparation. A key factor for producing a highly active and selective catalyst is the method for metal deposition. The decomposition of metal-organic precursors is a good method for deposition of metal nanoparticles with a very small size and narrow size distribution on the surface of various supports. The supported systems were synthesized by the impregnation of y-AfOs with a certain amount of Pd(acac)2, Sn(acac)2Cl2, Оа(асас)з dissolved in toluene with subsequent the thermal decomposition and oxidation- reduction treatments of adsorbed acetylacetoneates precursors
Abstract: Silica supported Pd-Au bimetallic catalysts are highly selective for the acetoxylation of ...
In recent heterogeneous catalysis, much effort has been made in understanding how the size, shape, a...
This paper presents an overview of the results obtained in the synthesis of metal or metal oxide nan...
International audienceOne of the key factors for producing highly dispersed controlled nanoparticles...
The synthesis of well-defined materials as model systemsfor catalysisand related fields is an import...
This review focuses on the chemical methods used to prepare supported bimetallic heterogeneous catal...
Catalyst performance can be enhanced by the high dispersion of precious metals onto supports. The de...
The synthesis of ultrasmall supported bimetallic nanoparticles (between 1 and 3 nanometers in diamet...
One of the key factors for producing highly dispersed controlled nanoparticles is the method used fo...
One step (direct) and multisteps synthesis methods of metal and oxide nanoparticles are presented in...
A procedure to synthesize new Au–Pd bimetallic catalysts using Au and Pd vapours as reagents (metal ...
We aim to develop novel catalysts that exhibit high activity, selectivity and stability under real c...
We have prepared supported gold, palladium and gold–palladium bimetallic catalysts by the physical m...
The wet-chemical synthesis of aluminum nanoparticles was investigated systematically by using dimeth...
The synthesis and characterization methods of metal nanoparticles (NPs) have advanced greatly in the...
Abstract: Silica supported Pd-Au bimetallic catalysts are highly selective for the acetoxylation of ...
In recent heterogeneous catalysis, much effort has been made in understanding how the size, shape, a...
This paper presents an overview of the results obtained in the synthesis of metal or metal oxide nan...
International audienceOne of the key factors for producing highly dispersed controlled nanoparticles...
The synthesis of well-defined materials as model systemsfor catalysisand related fields is an import...
This review focuses on the chemical methods used to prepare supported bimetallic heterogeneous catal...
Catalyst performance can be enhanced by the high dispersion of precious metals onto supports. The de...
The synthesis of ultrasmall supported bimetallic nanoparticles (between 1 and 3 nanometers in diamet...
One of the key factors for producing highly dispersed controlled nanoparticles is the method used fo...
One step (direct) and multisteps synthesis methods of metal and oxide nanoparticles are presented in...
A procedure to synthesize new Au–Pd bimetallic catalysts using Au and Pd vapours as reagents (metal ...
We aim to develop novel catalysts that exhibit high activity, selectivity and stability under real c...
We have prepared supported gold, palladium and gold–palladium bimetallic catalysts by the physical m...
The wet-chemical synthesis of aluminum nanoparticles was investigated systematically by using dimeth...
The synthesis and characterization methods of metal nanoparticles (NPs) have advanced greatly in the...
Abstract: Silica supported Pd-Au bimetallic catalysts are highly selective for the acetoxylation of ...
In recent heterogeneous catalysis, much effort has been made in understanding how the size, shape, a...
This paper presents an overview of the results obtained in the synthesis of metal or metal oxide nan...