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DIMERISATION AND HYDRODIMERISATION OF ALPHA,BETA - OLEFINICALLY UNSATURATED COMPOUNDS
DIMERISATION AND HYDRODIMERISATION OF ALPHA,BETA - OLEFINICALLY UNSATURATED COMPOUNDS
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机译:阿尔法(阿尔法)的分散和加氢缩合-最终不饱和化合物
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1,194,841. Dimerization of unsaturated compounds. IMPERIAL CHEMICAL INDUSTRIES Ltd. 4 July, 1967 [13 April, 1966; 18 April, 1966; 7 June, 1966; 16 Nov., 1966; 6 Jan., 1967; 16 March, 1967], Nos. 16179/66, 16907/66, 25353/66, 51410/66, 971/67 and 12331/67. Heading C2C. Michael acceptors are converted to their dimers and/or hydrodimers by contacting them with a hydrogen donor in the presence of a Group VIII metal catalyst, i.e. Fe, Co, Ni, Ru, Rh, Pd, Os, Ir, Pt. The reaction is suitably effected at - 20‹ to 500‹ C. under a pressure of 1-250 atmospheres and a solvent, e.g. acetonitrile, a hydrocarbon, a chlorinated hydrocarbon or an oxygen containing organic compound such as ethylene glycol monomethyl or monoethyl ether or dioxan, may be present. The hydrogen donor employed is a compound capable of supplying hydrogen under the reaction conditions and it may be molecular hydrogen, a metal hydride, a metal alkyl or a hydrogen transfer agent such as isopropanol or cyclohexene. The Michael acceptor, which may be dimerized or codimerized, may be an α,#-olefinically unsaturated aldehyde, ketone, acid, ester, amide, nitrile or alcohol or a compound containing an olefinically unsaturated group joined through one of its olefinically unsaturated carbon atoms to an aryl radical, a pyridyl radical or a halogen atom. The Group VIII metal catalyst may be a salt, compound, or complex and may comprise either a mixture of Group VIII metal catalysts or a mixture of one or more Group VIII metal catalysts with a metal catalyst from another group of the periodic system or with a non-metallic cocatalyst. When a salt, the catalyst may be an inorganic acid salt, an organic acid salt, the salt of an organic enol or phenol or the salt of an acidic ion exchange resin; when a complex, the catalyst suitably contains ligands other than strongly #-bonded ligands, suitable ligands being phosphines, olefins, cycloolefins, nitriles and di- and tri-phenylamine. Other metal catalysts which may be employed together with the Group VIII metal catalysts include derivatives of copper and Group IIb metals, i.e. Zn, Cd and Hg. The catalyst may also be used in admixture with a base or Lewis base or a mixture thereof. Suitable bases are inorganic or organic bases and include alkali or alkaline earth metal hydroxides or salts thereof with weak acids, phenols or alcohols, and organic tertiary amines; suitable Lewis bases are those containing one or more of the elements phosphorus, nitrogen, oxygen, sulphur, arsenic and antimony, especially phosphines, phosphites, nitriles, amines, amides, ethers, epoxides, sulphides, sulphoxides and sulphones. The catalyst may be used on a support, e.g. alumina, silica, carbon, pumice or kieselguhr, or ion exchange media, and the catalyst may be solubilized by the addition of an organic amine. The products may be subsequently reduced or hydrolysed and, when hexamethylene diamine is a product, it may be subjected to polycondensation with adipic acid. In specific examples the dimerizing species are acrylonitrile to yield isomeric dicyanobutenes, adiponitrile and propionitrile by-product, acrylonitrile to yield isomeric dicyanobutenes which are subsequently reduced to adiponitrile and hydrolysed to adipic acid, ethyl acrylate to yield diethyl adipate and ethylpropionate by product, ethyl acrylate and acrylonitrile to yield isomeric dicyanobutenes (which are reduced to adiponitrile), adiponitrile, ethyl #-cyanovalerate and diethyl adipate and ethyl propionate and propionitrile by-products, and ethyl acrylate to yield diethyl dihydronurconate which is hydrogenated to diethyl adipate.
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