Hydrogenation catalysts - Bimetallic catalytic systems
Very active and selective catalysts,Metal vapors technique,Nanostructured metal powders,Nanostructured Metal,Homogeneous catalysis,Hydrogenation catalysts,Bimetallic catalytic systems,Nanostructured metal catalysts,Carbon-Carbon coupling reactions catalysts,Metal vapors technology,Advanced nanostructured metal,New generation catalysts,Polymerization catalysts,Analyzing of Materials,Production of Nanostructured metal catalysts,Hetero Nanostructured metal, Nanostructured metals,Catalysis by Small Metal Clusters,Heterogeneous catalysis,Oxidation catalysts,Advanced Catalysts
 

Chem. Mater., 14 (2002) 1183

Copper nanosized: Particles ranging 3-4 nm in diameter

Active in the oxidation of cycloalkanes, thiols,cysteine to cystine ecc. with molecular oxygen or air.


   

Powders

Heterogeneous Catalysts



Production of Hetero Nanostructured metals catalysts,Hydrogenation catalysis,Bimetallic catalytic systems,Advanced nanostructured metal powders Catalysts by Small Metal Clusters, Homogeneous Heterogeneous Oxidation Polymerization catalysts, Metal vapors technology technique,Very active and selective New generation catalysts

Chem. Mater., 14 (2002) 1183

 

Silver nanosized: Particles ranging 2.5-32.5 nm in diameter

Active in the oxidation of alcohols to ketones, cysteine to cystine with molecular oxygen.

Gold nanosized: Particles ranging 4.5 nm in diameter

Active in the oxidation of alcohols to ketones, cysteine to cystine ecc. with molecular oxygen.

 
 

Active in the oxidation of cycloalkanes, thiols,cysteine to cystine ecc. with molecular oxygen or air.

Copper nanosized: Particles ranging 3-4 nm in diameter

 

Chim. Ind. (Milan, Italy) 83 (2001) 60

An example of the activity and selectivity of powders obtained by MVS technique:

Hydrosilylation of acetylenic compounds with a commercial Au catalyst and with an analogous system prepared

via Metal Vapour Synthesis technique.

Au Commercial sample Au MVS sample

Rhodium nanosized: Particles ranging 2.7 nm in diameter

 
 

Very active Hydrogenation catalysts; it has been proved successful in the hydrosilylation of nitriles.

Mater Sci. Eng., 15 (2001) 207

J. Mol. Catal., 150 (1999) 275

J. Organomet.Chem., 690 (2005) 1063

Platinum nanosized: Particles ranging 2.8 nm in diameter

Very active Hydrogenation catalysts.

Mater. Sci. Forum, 235 (1997) 929



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