Palladium size-controlled

Synthesis (TCS). The very same term was independently proporsed by Corain and associates for the size controlled synthesis of palladium nanoparticles in 2004 [68]. In a number of cases they observed that palladium nanoclusters, supported on gel-type resins of different nature and obtained with the RIMP method, exhibited a remarkable agreement between the size of the cavities of swollen supports (as assessed by means of ISEC, see Section 4) and the diameter of the metal nanoclusters (Table 4, Entries 1-3) [10,11,66,71,72,87]. 

Figure 2 schematically presents a synthetic strategy for the preparation of the structured catalyst with ME-derived palladium nanoparticles. After the particles formation in a reverse ME [23], the hydrocarbon is evaporated and methanol is added to dissolve a surfactant and flocculate nanoparticles, which are subsequently isolated by centrifugation. Flocculated nanoparticles are redispersed in water by ultrasound giving macroscopically homogeneous solution. This can be used for the incipient wetness impregnation of the support. By varying a water-to-surfactant ratio in the initial ME, catalysts with size-controlled monodispersed nanoparticles may be obtained. 

Okitsu K, Nagaoka S, Tanabe S, Matsumoto H, Mizukoshi Y, Nagata Y (1999) Sonochemical preparation of size-controlled palladium nanoparticles on alumina surface. Chem Lett 28 271-272... 

Rossi, L.M., Nangoi, I.M. and Costa, N.J.S. (2009) Ligand-assisted preparation of palladium supported nanopartides a step toward size control. Inorganic Chemistry, 48 (11), 4640-4642. 

Teranishi, T. and Miyake, M. (1998) Size control of palladium nanoparticles and their crystal structures. Chem. Mater., 10, 594—600. 

Size control of palladium nanopartides and their crystal structures. Chemistry of Materials, 10, 594. 

Chi, P.-F. and Ho, K.-M. (2004) Size-controlled synthesis of Pd nanopartides from P-diketonato complexes of palladium. Nanotechnology, 15,1059. 

The solvent-free controlled thermolysis of metal complexes in the absence or presence of amines is the simple one-pot synthesis of the metal nanoparticles such as gold, silver, platinum, and palladium nanoparticles and Au-Ag, Au-Pt, and Ag-Pd alloy nanoparticles. In spite of no use of solvent, stabilizer, and reducing agent, the nanoparticles produced by this method can be well size regulated. The controlled thermolysis in the presence of amines achieved to produce narrow size dispersed small metal nanoparticles under milder condition. This synthetic method may be highly promising as a facile new route to prepare size-regulated metal nanoparticles. Finally, solvent-free controlled thermolysis is widely applicable to other metal nanoparticles such as copper and nickel... 

Palladium-catalyzed cyclization of alkenes and alkynes were reported by Balme and co-workers.143 144 Intramolecular carbopalladation occurs to give polycyclic compounds. It has been shown that the nucleophile type has a large influence on the cyclization process. Both 5-exo- and 6-endo-cyclization are observed for substrates with nitrile (116 and 118) and ester (120, 122, and 124) substituents, respectively (Scheme 36). When a mixed nucleophile (CN and C02Me) is used, a mixture of 5-exo and 6-endo products is obtained. The chemoselectivity is controlled by the size of the nucleophile used. The stereochemistry of the initial double bond plays an important role on the stereoselectivity of the cyclization. (Z)-olefins (118 and 120) and (/. )-olefins (116 and 124) afford as- (119 and 121) and trans-cyclization products (117 and 123), respectively. 

Cuny G, Bois-Choussy M, Zhu JP (2004) Palladium- and copper-catalyzed synthesis of medium- and large-sized ring-fused dihydroazaphenanthrenes and 1, 4-benzodiazepine-2, 5-diones. Control of reaction pathway by metal-switching. J Am Chem Soc 126 14475-14484... 

Powders possessing relatively high surface area and active sites can be intrinsically catalytically active themselves. Powders of nickel, platinum, palladium, and copper chromites find broad use in various hydrogenation reactions, whereas zeolites and metal oxide powders are used primarily for cracking and isomerization. All of the properties important for supported powdered catalysts such as particle size, resistance to attrition, pore size, and surface area are likewise important for unsupported catalysts. Since no additional catalytic species are added, it is difficult to control active site location however, intuitively it is advantageous to maximize the area of active sites within the matrix. This parameter can be influenced by preparative procedures. 

---