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Group 8 VIII cobalt

Reactions of Group VIII Cobalt, Rhodium, and Iridium... [Pg.460]

Reactions of Group VIII Cobalt, Rhodium, and Iridium 10.3.7.3. Reactions of Haiacids and Haiogens... [Pg.474]

Group VIII.—Cobalt. Chelate ring inversion in the pseudo-tetrahedral compound [Co(tmeda)(NO)2]+ is discussed with other similar chelate ring inversions for octahedral complexes in Section 9 of Chapter 3. ... [Pg.144]

Hydrogenation Catalysts. The key to catalytic hydrogenation is the catalyst, which promotes a reaction which otherwise would occur too slowly to be useful. Catalysts for the hydrogenation of nitro compounds and nitriles are generally based on one or more of the group VIII metals. The metals most commonly used are cobalt, nickel, palladium, platinum, rhodium, and mthenium, but others, including copper (16), iron (17), and tellurium... [Pg.258]

Catalysts. The methanation of CO and C02 is catalyzed by metals of Group VIII, by molybdenum (Group VI), and by silver (Group I). These catalysts were identified by Fischer, Tropsch, and Dilthey (18) who studied the methanation properties of various metals at temperatures up to 800°C. They found that methanation activity varied with the metal as follows ruthenium > iridium > rhodium > nickel > cobalt > osmium > platinum > iron > molybdenum > palladium > silver. [Pg.23]

The first reported work on the kinetics of hydrogenolysis reactions of simple hydrocarbons appears to be that of Taylor and associates at Princeton (2-4, 14, 15), primarily on the hydrogenolysis of ethane to methane. The studies were conducted on nickel, cobalt, and iron catalysts. More recently, extensive studies on ethane hydrogenolysis kinetics have been conducted on all the group VIII metals and on certain other metals as well (16,28-83). [Pg.94]

In the hydrogenolysis of the higher alkanes on the nonnoble group VIII metals (i.e., iron, cobalt, and nickel), the mode of cracking is very different from that observed on the noble metals of group VIII (49, 50). On nickel,... [Pg.105]

The successive demethylation scheme of hydrogenolysis just discussed for iron, cobalt, and nickel clearly does not apply to the noble metals of group VIII. This can be seen by examining the product distribution data in Table IV. The amounts of methane observed are much lower than would be expected if the hydrogenolysis occurred by successive demethylation steps. Thus, we have another indication that the noble and nonnoble metals of group VIII behave as two separate classes with regard to their catalytic properties in the hydrogenolysis of hydrocarbons. [Pg.106]

In this connection, a recent article by Phillipson and Wells 44) dealing with the isomerization of butenes is of interest. The Group VIII metals catalyze both the hydrogenation and isomerization of butenes, cobalt... [Pg.35]

See other pages where Group 8 VIII cobalt is mentioned: [Pg.215]    [Pg.219]    [Pg.447]    [Pg.219]    [Pg.542]    [Pg.191]    [Pg.472]    [Pg.393]    [Pg.13]    [Pg.38]    [Pg.45]    [Pg.101]    [Pg.101]    [Pg.19]    [Pg.19]    [Pg.393]   
See also in sourсe #XX -- [ Pg.313 , Pg.314 , Pg.315 , Pg.316 , Pg.317 , Pg.318 , Pg.319 , Pg.320 , Pg.321 , Pg.322 , Pg.323 , Pg.324 , Pg.325 , Pg.326 , Pg.327 ]



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Group VIII (8-10). Iron, Cobalt, Nickel

Group VIII Cobalt Triad

Group VIII Cobalt, Rhodium and Iridium

Groups, viii

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