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Hydrides liquid phase

In the chemical process industry molybdenum has found use as washers and bolts to patch glass-lined vessels used in sulphuric acid and acid environments where nascent hydrogen is produced. Molybdenum thermocouples and valves have also been used in sulphuric acid applications, and molybdenum alloys have been used as reactor linings in plant used for the production of n-butyl chloride by reactions involving hydrochloric and sulphuric acids at temperatures in excess of 170°C. Miscellaneous applications where molybdenum has been used include the liquid phase Zircex hydrochlorination process, the Van Arkel Iodide process for zirconium production and the Metal Hydrides process for the production of super-pure thorium from thorium iodide. [Pg.849]

At the beginning stage of dehydrogenation, the substrate organic hydride is adsorbed onto the catalyst surface from the liquid phase directly and easily. Catalytic reaction processes will succeed it, until the surface sites are filled with the adsorbed reactant and products. Once product desorption starts to form and grow a bubble, product readsorption becomes unfavorable due to the increment of translational entropy of the product molecule in the bubble, if compared with that in the solution, shifting the adsorption equilibrium for the product and suppressing its effect of rate retardation. [Pg.471]

There are substantial differences between gas-phase and liquid-phase hydride transfer reactions. In the latter, the hydride transfer occurs with a low activation energy of 13-17 kJ/mol, and no carbonium ions have been detected as intermediates when secondary or tertiary carbenium ions were present (25). [Pg.264]

Proton and C-nmr, ESCA, and Raman studies provide a wealth of information which unfortunately is not subject to a unique interpretation. The main conclusion to be drawn therefore is that the structure of the solvent stabilized cation is still unproven. Gas phase estimates of the heat of formation of the norbomyl cation imply a rather marked stability of the stmcture relative to other secondary ions (Kaplan et al., 1970). When combined with other estimates of the heat of formation of the t-butyl cation, however, these data suggest that hydride transfer from isobutane to the norbomyl ion will be endothermic by 6 to 15 kcal mole . This is contrary to experience in the liquid phase behaviour of the ion, and the author s conclusion that their observation of enhanced stability is evidence of stabilization by bridging deserves further scmtiny. [Pg.222]

M. J. McCollum and G. E. Stillman, High Purity InP Grown by Hydride Vapor Phase Epitaxy T. Inada and T. Fukuda, Direct Synthesis and Growth of Indium Phosphide by the Liquid Phosphorous Encapsulated Czochralski Method O. Oda, K. Katagiri, K. Shinohara, S. Katsura, Y. Takahashi, K. Kainosho, K. Kohiro, and R. Hirano, InP Crystal Growth, Substrate Preparation and Evaluation... [Pg.298]

Ammonia reacts with boron hydride to form a product with the empirical composition B2H6 2NH3 s2-is4) similarly, phosphine combines with diborane, in the gas phase above -30 °C and in the liquid phase in a sealed tube above -130 C, to give a white instable solid of constitution BH3PH3 (m.p. 32-35 °C) >is ). The dissociation pressure of BH3 PH3 is so large that the compound is already separated into its components at room temperature... [Pg.33]

One of the early specialized techniques used for the study of radical reactions was the rotating sector method. The use of this technique (Fig. 6) for determining reaction kinetics was demonstrated by Melville for the gas phase polymerization of methyl methacrylate, and later by Bartlett and Swain for the liquid phase reaction, and by Carlsson and Ingold for tin hydride reductions. ... [Pg.25]

Curran, D. P Hadida, S. Tris(2-(perfluorohexyl)ethyl)tin Hydride A New Fluorous Reagent for Use in Traditional Organic Synthesis and Liquid Phase Combinatorial Synthesis, J. Am. Chem. Soc. 1996,118, 2531. [Pg.189]

Such a stabilization of the palladium catalyst can also be achieved in homogeneous liquid phase by the use of appropriate ligands. Thus, it has recently been shown that palladium(II) hydroxamates are effective catalysts for the acetoxylation of ethylene with high selectivity and a high turnover (>200) (equation (162), whereas Pd(OAc)2 rapidly becomes deactivated and precipitates in the form of metallic palladium.419 It is probable that the bidentate hydroxamate ligand stabilizes the hydride Pd—H species and prevents palladium from precipitating. [Pg.366]

Finally, selective hydrogenation of the olefinic bond in mesityl oxide is conducted over a fixed-bed catalyst in either the liquid or vapor phase. In the liquid phase the reaction takes place at 150°C and 0.69 MPa, in the vapor phase the reaction can be conducted at atmospheric pressure and temperatures of 150—170°C. The reaction is highly exothermic and yields 8.37 kJ/mol (65). To prevent temperature runaways and obtain high selectivity, the conversion per pass is limited in the liquid phase, and in the vapor phase inert gases often are used to dilute the reactants. The catalysts employed in both vapor- and liquid-phase processes include nickel (66—76), palladium (77—79), copper (80,81), and rhodium hydride complexes (82). Complete conversion of mesityl oxide can be obtained at selectivities of 95—98%. [Pg.491]

The optimal reaction conditions for reactions involving catalyst 33 and substrates 16a-c or 34 were investigated, and it was found that best results were obtained at room temperature [36] with toluene as the solvent [37] and with sodium hydroxide or sodium hydride as the base. In particular, the use of potassium hydroxide always gave lower enantioselectivities than sodium hydroxide, and lithium hydroxide was not effective in these reactions. Attempts to use aqueous sodium hydroxide as the base under liquid-liquid phase-transfer conditions resulted in the formation of a negligible amount of product [33,34]. An important finding of these optimization studies was the presence of a significant background reaction [38], Hence, one role of catalyst 33 must be to enhance the reactivity of an enolate when it is coordinated to the catalyst relative to the uncoordinated enolate. [Pg.176]

Unusual flux precursors like urea, ammonium nitrate, boric acid, or ammonium boron-hydride have also been studied [173], In all these cases derivatives of amino borate form the liquid phase. [Pg.26]

Liquid injection molding, for silicone rubbers, 3, 674—675 Liquid ligands, in metal vapor synthesis, 1, 229 Liquid-phase catalysis, supported, for green olefin hydroformylation, 12, 855 Lithiacarbaboranes, preparation, 3, 114 Lithiation, arene chromium tricarbonyls, 5, 236 Lithium aluminum amides, reactions, 3, 282 Lithium aluminum hydride, for alcohol reductions, 3, 279 Lithium borohydride, in hydroborations, 9, 158 Lithium gallium hydride, in reduction reactions, 9, 738 Lithium indium hydride, in carbonyl reductions, 9, 713—714... [Pg.136]

See other pages where Hydrides liquid phase is mentioned: [Pg.70]    [Pg.165]    [Pg.442]    [Pg.467]    [Pg.264]    [Pg.277]    [Pg.2]    [Pg.77]    [Pg.97]    [Pg.24]    [Pg.454]    [Pg.506]    [Pg.509]    [Pg.50]    [Pg.218]    [Pg.53]    [Pg.25]    [Pg.366]    [Pg.368]    [Pg.163]    [Pg.44]    [Pg.147]    [Pg.303]    [Pg.198]    [Pg.197]    [Pg.147]    [Pg.43]    [Pg.1540]    [Pg.110]    [Pg.229]    [Pg.70]    [Pg.210]    [Pg.89]    [Pg.52]    [Pg.138]    [Pg.412]    [Pg.412]   
See also in sourсe #XX -- [ Pg.213 ]



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Hydrides phase

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