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Nickel ethereal/hydrocarbon solvent

In the case of the hexacarbonyls, the rate-expression contains not only the same type of first-order term but in addition one second-order overall. For good entering groups (but not CO, for example) the rate expression contains a term strictly first-order in both the complex and the entering nucleophile. The first-order rates of CO exchange are practically identical with the rates of substitution in hydrocarbon solvents, but there is nevertheless some acceleration in ether (THF, dioxan) solutions. This solvent-dependence is not so well-marked ° as in the case of nickel tetracarbonyl. The second-order rate of substitution very strongly depends upon the basicity of the entering nucleophile... [Pg.30]

Medium-c/5 lithium-polybutadiene was first developed by Firestone Tire and Rubber Company in 1955 [86]. Solution polymerization using anionic catalysts is usually based on butyllithium. Alkyllithium initiation does not have the high stereospecificity of the coordination catalysts based on titanium, cobalt, nickel, or neodymium compounds. Polymerization in aliphatic hydrocarbon solvents such as hexane or cyclohexane yields a polymer of about 40 % cis, 50 % trans structure with 10 % 1,2-addition. However, there is no need for higher cis content because a completely amorphous structure is desired for mbber applications the glass transition temperature is determined by the vinyl content. The vinyl content of the polybutadiene can be increased up to 90 % by addition of small amounts of polar substances such as ethers. [Pg.307]

Orito and Imai have shown that the hydrogenation of benzene over nickel and cobalt catalysts is inhibited by alcoholic solvents and some ethers.5 As seen from the results shown in Table 11.2, benzene is hydrogenated extremely slowly or not at all in primary alcohols but very rapidly without solvent or in hydrocarbons. Benzene is hydrogenated at a considerable rate at 110°C even over Urushibara Ni A, which is known to be a poor catalyst toward the hydrogenation of aromatic nucleus,10 when used without solvent or in hydrocarbons after the water or alcohol on the catalyst has been carefully removed. [Pg.414]

The products of cyclocarbonylation find application in the pharmaceutical industry as well as in the chemical industry, for example, as solvents. The best catalysts for this reaction are cobalt carbonyls however, carbonyls of rhodium and iron and palladium complexes have also been utilized. Sometimes nickel carbonyl may also be used, although it is less active in this type of reaction. Aromatic and aliphatic hydrocarbons as well as cyclic ethers are used as solvents. Reactions are carried out at 390-570 K and 10-30 MPa. [Pg.700]

See other pages where Nickel ethereal/hydrocarbon solvent is mentioned: [Pg.92]    [Pg.1726]    [Pg.855]    [Pg.278]    [Pg.140]    [Pg.1806]    [Pg.1726]    [Pg.92]    [Pg.1097]    [Pg.134]    [Pg.1726]    [Pg.285]    [Pg.259]    [Pg.46]    [Pg.76]    [Pg.128]    [Pg.47]    [Pg.392]    [Pg.120]    [Pg.833]    [Pg.194]    [Pg.43]    [Pg.381]    [Pg.96]    [Pg.96]    [Pg.653]    [Pg.333]   
See also in sourсe #XX -- [ Pg.285 ]



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Etheral solvent

Ethereal/hydrocarbon solvent

Ethers hydrocarbons

Hydrocarbon solvents

Nickel ether

Nickel solvents

Nickel, hydrocarbons

Solvents etheric

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