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  • Organic Chemistry  (2)
  • Heterogeneous catalysts
  • Katalyse
  • 1990-1994  (2)
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  • 1
    Electronic Resource
    Electronic Resource
    η3-Allylnickel alkoxides and their use as homogeneous and heterogeneous catalysts for the dimerization of olefinsDedicated to Professor F. E. Brinckman on the occasion of his retirement. (1993)
    New York, NY [u.a.] : Wiley-Blackwell
    Applied Organometallic Chemistry 7 (1993), S. 553-565 
    Details
    ISSN: 0268-2605
    Keywords: Organonickel alkoxides ; surface organometallic chemistry ; catalysis ; olefin dimerization ; Chemistry ; Organic Chemistry
    Source: Wiley InterScience Backfile Collection 1832-2000
    Topics: Chemistry and Pharmacology
    Notes: η3-Allylnickel alkoxides {η3-C3H5NiOR}2 (R = Me, Et, i-Pr, Ph, SiPh3) may be activated by gaseous boron trifluoride (BF3) to give active catalysts for the dimerization of propene in homogeneous phase. In CH2Cl2 at -20 °C catalytic turnover numbers of 5000 mol propene(mol Ni)-1h-1 were measured. The nature of the OR group influences both the catalytic activity and the oligomerization product distribution. The ratio of methylpentenes to dimethylbutenes in the dimer fraction may be controlled by the presence of additional phosphine ligands at the nickel atom.The nickel alkoxide precursor was heterogenized on alumina to give {Al2O3}-O-Ni-(η3-C3H5). Subsequent activation using gaseous BF3 generates a powerful heterogeneous olefin dimerization catalyst which converts 50 × 103 mol propene (mol Ni)-1 at -10° to -5°C in a batchwise process and 143 × 103 mol propene (mol Ni)-1 continuously to give 75% dimers and 25% higher oligomers. The solvent-free treatment of oxide supports, e.g. alumina or silica, with gaseous BF3 produces strong ‘solid acids’. The activated hydroxyl groups on the support surface serve as effective anchor sites for organometallic complexes to form heterogenous catalysts. By reaction of Ni(cod)2 with {Al2O3}O(BF3)H or {SiO2}O(BF3)H, η1, η2-cyclo-octenylnickel-O fragments may be fixed to the surface. In the absence of halogenated solvents, the resulting catalysts, e.g. {SiO2}O-(BF3)-Ni-(η1, η2-C8H13), dimerize propene continuously at +5°C at the rate of 800 × 103 mol liquid propene (mol Ni)-1.
    Additional Material: 12 Ill.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1002/aoc.590070716
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  • 2
    Electronic Resource
    Electronic Resource
    Preparation and catalytic properties of NR4+-stabilized palladium colloidsDedicated to Professor H. Werner on the occasion of his 60th anniversary in recognition of his important contributions to pure and applied organometallic chemistry. (1994)
    New York, NY [u.a.] : Wiley-Blackwell
    Applied Organometallic Chemistry 8 (1994), S. 361-378 
    Details
    ISSN: 0268-2605
    Keywords: Palladium colloids ; catalysis ; hydrogenation ; Chemistry ; Organic Chemistry
    Source: Wiley InterScience Backfile Collection 1832-2000
    Topics: Chemistry and Pharmacology
    Notes: Palladium colloids revealing narrow particle size distributions can be obtained by chemical reduction using tetra-alkylammonium hydrotriorganoborates. Combining the stabilizing agent [NR4+] with the reducing agent [BEt3H-] provides a high concentration of the protecting group at the reduction centre. Alternatively, NR4X (X = halogen) may be coupled to the metal salt prior to the reduction step: addition of N(octyl)4Br to Pd(ac)2 in THF, for example, evokes an active interaction between the stabilizing agent and the metal salt. Reduction of NR4+-stabilized palladium salts with simple reducing agents such as hydrogen at room temperature yields stable palladium organosols which may be isolated in the form of redispersible powders. The anion of the palladium salt is crucial for the success of the colloid synthesis. Electron microscopy shows that the mean particle size ranges between 1.8 and 4.0 nm. An X-ray-photoelectron spectrscopic examination demonstrated the presence of zerovalent palladium.These palladium colloids may serve as both homogeneous and heterogeneous hydrogenation catalysts. Adsorption of the colloids onto industrially important supports can be achieved without agglomeration of palladium particles. The standard activity of a charcoal catalyst containing 5% of colloidal palladium determined through the cinnamic acid standard test was found to exceed considerably the activity of the conventional technical catalysts. In addition, the lifespan of the catalyst containing a palladium colloid, isolated from the reduction of [N(octyl)4]2PdCl2Br2 with hydrogen, is superior to conventionally prepared palladium/charcoal (Pd/C) catalysts. For example, the activity of a conventional Pd/C catalyst is completely suppressed after 38×103 catalytic cycles per Pd atom, whereas the colloidal Pd/C catalyst shows activity even after 96times;103 catalytic cycles.
    Additional Material: 13 Ill.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1002/aoc.590080410
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