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Polar olefins

Surface Groups. Another factor affecting sorption characteristics is the chemical nature of the adsorbing surfaces. Solid sorbent surfaces may contain hydroxyl or phenyl groups, acid or base groups, or even reactive groups such as olefins. Polarities also... [Pg.180]

Ziegler Natta catalysts are characterised by low activities in both olefin/ polar monomer copolymerisation and polar monomer homopolymerisation. Homopolymers of polar monomers appeared in most cases to exhibit properties that were very similar to those of homopolymers obtained by radically initiated polymerisations this testifies to the radical mechanism that operates in such polymerisations [28]. [Pg.200]

The products in the olefin—polar monomer reactions were shown to be copolymers by elemental analysis and solubility in acetone, a nonsolvent for the homopolymers. [Pg.127]

Barbier-Baudry, D., Bonnet, F., Domenichini, B. et al. (2002) Non-hindered ansasamarocenes, versatile catalysts for diene/olefin/polar monomer copolymerisations. What is really the active species Journal of Organometallic Chemistry, 647, 167. [Pg.354]

On treatment with cyanide ion, vinyl sulphones are converted into a,/3-unsaturated nitriles in which the direction of olefin polarization has been reversed, e.g. (105) - (106). Allylic sulphones are also suitable starting materials since they can be equilibrated with vinyl sulphones by adding potassium t-butoxide to the reaction mixture. With magnesium as counter-ion, the triphenylsilylacetonitrile anion undergoes stereoselective Peterson olefination... [Pg.29]

Vinyl sulphones are smoothly converted to a,/3-unsaturated nitriles on exposure to potassium cyanide-dicyclohexyI-18-crown-6 in refluxing t-butyl alcohol. The reaction proceeds with the reversal of olefin polarization and concomitant carbon-carbon bond formation (Scheme 29). The method appears to be general and allows the preparation of a wide variety of unsaturated nitriles, including a-methylene nitriles, and is compatible with base-labile functionality. [Pg.205]

In the olefin example mentioned above, the two non-orthogonal "polarized orbital pairs" involve mixing the n and 7i orbitals to produee two left-right polarized orbitals as depleted below ... [Pg.314]

A major difficulty with the Diels-Alder reaction is its sensitivity to sterical hindrance. Tri- and tetrasubstituted olefins or dienes with bulky substituents at the terminal carbons react only very slowly. Therefore bicyclic compounds with polar reactions are more suitable for such target molecules, e.g. steroids. There exist, however, several exceptions, e. g. a reaction of a tetrasubstituted alkene with a 1,1-disubstituted diene to produce a cyclohexene intermediate containing three contiguous quaternary carbon atoms (S. Danishefsky, 1979). This reaction was assisted by large polarity differences between the electron rich diene and the electron deficient ene component. [Pg.86]

The less hindered f/ans-olefins may be obtained by reduction with lithium or sodium metal in liquid ammonia or amine solvents (Birch reduction). This reagent, however, attacks most polar functional groups (except for carboxylic acids R.E.A. Dear, 1963 J. Fried, 1968), and their protection is necessary (see section 2.6). [Pg.100]

Polar solvents shift the keto enol equilibrium toward the enol form (174b). Thus the NMR spectrum in DMSO of 2-phenyl-A-2-thiazoline-4-one is composed of three main signals +10.7 ppm (enolic proton). 7.7 ppm (aromatic protons), and 6.2 ppm (olefinic proton) associated with the enol form and a small signal associated with less than 10% of the keto form. In acetone, equal amounts of keto and enol forms were found (104). In general, a-methylene protons of keto forms appear at approximately 3.5 to 4.3 ppm as an AB spectra or a singlet (386, 419). A coupling constant, Jab - 15.5 Hz, has been reported for 2-[(S-carboxymethyl)thioimidyl]-A-2-thiazoline-4-one 175 (Scheme 92) (419). This high J b value could be of some help in the discussion on the structure of 178 (p. 423). [Pg.422]

Another example of unique selectivities is the separation of olefins from paraffins in feed mixtures containing about five successive molecular sizes, eg, C Q to Liquid—Hquid extraction might be considered for this separation. However, polar solvents give solubiHty patterns of the type shown in Figure... [Pg.291]

The principal nonpolar-type adsorbent is activated carbon. Kquilihrium data have been reported on hydrocarbon systems, various organic compounds in water, and mixtures of organic compounds (11,15,16,46,47). With some exceptions, the least polar component of a mixture is selectively adsorbed eg, paraffins are adsorbed selectively relative to olefins of the same carbon number, but dicycUc aromatics are adsorbed selectively relative to monocyclic aromatics of the same carbon number (see Carbon, activated carbon). [Pg.292]

The general reactivity of higher a-olefins is similar to that observed for the lower olefins. However, heavier a-olefins have low solubihty in polar solvents such as water consequentiy, in reaction systems requiting the addition of polar reagents, apparent reactivity and degree of conversion maybe adversely affected. Reactions of a-olefins typically involve the carbon—carbon double bond and can be grouped into two classes (/) electrophilic or free-radical additions and (2) substitution reactions. [Pg.436]

Extraction Solvent. Dimethyl sulfoxide is immiscible with alkanes but is a good solvent for most unsaturated and polar compounds. Thus, it can be used to separate olefins from paraffins (93). It is used in the Institute Fransais du Pntrole (IFF) process for extracting aromatic hydrocarbons from refinery streams (94). It is also used in the analytical procedure for determining polynuclear hydrocarbons in food additives (qv) of petroleum origin (95). [Pg.112]

A considerable amount of hydrobromic acid is consumed in the manufacture of inorganic bromides, as well as in the synthesis of alkyl bromides from alcohols. The acid can also be used to hydrobrominate olefins (qv). The addition can take place by an ionic mechanism, usually in a polar solvent, according to Markownikoff s rule to yield a secondary alkyl bromide. Under the influence of a free-radical catalyst, in aprotic, nonpolar solvents, dry hydrogen bromide reacts with an a-olefin to produce a primary alkyl bromide as the predominant product. Primary alkyl bromides are useful in synthesizing other compounds and are 40—60 times as reactive as the corresponding chlorides (6). [Pg.291]

This is one approach to the explanation of retention by polar interactions, but the subject, at this time, remains controversial. Doubtless, complexation can take place, and probably does so in cases like olefin retention on silver nitrate doped stationary phases in GC. However, if dispersive interactions (electrical interactions between randomly generated dipoles) can cause solute retention without the need to invoke the... [Pg.76]

Alkenes — Also known as olefins, and denoted as C H2 the compounds are unsaturated hydrocarbons with a single carbon-to-carbon double bond per molecule. The alkenes are very similar to the alkanes in boiling point, specific gravity, and other physical characteristics. Like alkanes, alkenes are at most only weakly polar. Alkenes are insoluble in water but quite soluble in nonpolar solvents like benzene. Because alkenes are mostly insoluble liquids that are lighter than water and flammable as well, water is not used to suppress fires involving these materials. Because of the double bond, alkenes are more reactive than alkanes. [Pg.170]

The product stereochemistry obtained on hydrogenation of a, -unsaturated ketones is generally the same as that observed on saturation of the corresponding desoxy olefin. However, the stereochemistry of hydrogenation of these polarized species can be affected by the nature of the solvent (see section II-C). [Pg.125]

The addition proceeds most smoothly with highly functionalized (more polar) steroids as seen in examples by Bernstein and others. The polar reaction conditions pose solubility problems for lipophilic androstane, cholestane and pregnane derivatives. Improved yields can be obtained in some cases by using dimethyl sulfoxide or t-butanol " as solvents and by using sodium A-bromobenzenesulfonamide or l,3-dibromo-5,5-dimethyl hydantoin (available from Arapahoe Chemicals) as a source of positive bromine. The addition of bromo acetate and bromo formate to steroid olefins has been studied to a limited extent. ... [Pg.17]

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See also in sourсe #XX -- [ Pg.72 ]



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