Halides preferential formation

Electrochemical oxidation of 4-aryl-substituted thiane in aqueous organic solvents containing various halide salts as electrolytes gave selectively the trans-sulfoxide (lOe). Under acidic conditions a preferential formation of the cis-sulfoxide was attained328. The stereoselective potential of this method for the oxidation of cyclic sulfides139,329 is apparent (equation 123). 

Ring closure with the formation of a carbon-nitrogen bond, of the types A-E shown in Fig. 1, has been used to synthesize derivatives of 1-, 2-, and 3-benzazepines, with aminocarboxylic acids, amino halides, dihalides, dinitriles, dicarboxylic acids, and carboxylic acid diamides as starting materials. The yields were generally fair to good. In some cases preferential formation of a five- or six-membered ring was observed. 

The displacement of halide ions from N-(2-halogenoethyl) phosphoramidates under conditions of electrophilic or basic catalysis occurs with the preferential formation of aziridine derivatives a 1,5-intramolecular reaction involving the phosphoryl oxygen atom was not observed. By contrast, however, 30—50% conversions into 2-(alkylamino)-3-(2-chloroethyl)-2-oxo-l,3,2-oxazaphospho-lidines by intramolecular O-alkylation have been reported in an extensive and detailed study of the chemistry of AW-bis(2-chloroethyl) phosphoramidic acid amides [114 = H, R = Me, Bu, or cycloHex or R -R = (CH2)6]. At... 

However, clear evidence of the IL effect was found for the regioselective arylation of olefins. It is generally accepted that the Heck reaction may proceed via two pathways, a neutral pathway leading to the preferential formation of linear olefins and an ionic counterpart more likely to give rise to branched olefins. Thus, Pd(OAc)2 and l,3-bis(diphenylphosphino)propane (DPPP) immobilized in [G4GiIm]BF4 promote the exclusive a-arylation of several classes of electron-rich olefins with a wide range of aryl iodides and bromides in the absence of halide scavengers (Scheme 3). ... 

Preferential formation of see. amines from halides and prim, amines... 

Preferential formation of thioethers from halides and ring closure to thianaphthenes. 

Formate is an excellent hydride source for the hydrogenolysis of aryl halides[682]. Ammonium or triethylammonium formate[683] and sodium formate are mostly used[684,685]. Dechlorination of the chloroarene 806 is carried out with ammonium formate using Pd charcoal as a catalyst[686]. By the treatment of 2,4,6-trichloroamline with formate, the chlorine atom at the /iiara-position is preferentially removed[687]. The dehalogenation of 2,4-diha-loestrogene is achieved with formic acid, KI, and ascorbic acid[688]. 

Large concentrations of halide ions, preferably iodide, favour the formation of /ra/i5-stilbene from benzaldehyde and benzyltriphenylphosphonium halides in methanol with methoxide as base, whereas large concentrations of methoxide ions slightly favour formation of the m-isomer. These effects have been explained by the preferential solvation of P+ by halide ions, leading to greater reversibility of betaine formation. Methoxide ions, on the other hand, are preferentially solvated by methanol. 

A striking example for the preferred formation of the thermodynamically less stable cyclopropane is furnished by the homoallylie halides 37, which are cyclopro-panated with high c/s-selectivity in the presence of copper chelate 3891 The cyclopropane can easily be converted into cw-permethric acid. In contrast, the direct synthesis of permethric esters by cyclopropanation of l,l-dichloro-4-methyl-l,3-pentadiene using the same catalyst produces the frans-permethric ester (trans-39) preferentially in a similar fashion, mainly trans-chrysanthemic ester (trans-40) was obtained when starting with 2,5-dimethyl-2,4-hexadiene 92). 

Most remarkably, the homoallylic halides 214 not only yield the thermodynamically unfavored ris-cyclopropanes 215 preferentially (see Sect. 2.2.3), but also give rise to enantioselective formation of the (1/ ) configuration, in contrast to the cyclopropanation of 1,3-butadienes with the same catalysts (see Table 15). Only in the case of olefin 214 (X = CF3, Y = Cl), may the (1 S)-trans isomer be obtained enantioselecti-vely, depending on the catalyst (Table 16, entries 8-11). In these few cases, optical induction occurs at C(3) of the cyclopropane rather than at C(l). 

Similarly, copper salts (cupric and cuprous) facilitate the reaction of aryl halides with trialkyl phosphites in the formation of dialkyl arylphosphonates under conditions like those found in nickel systems.37-39 Again, the copper salts appear to undergo an initial reaction with the phosphites to form a complex that subsequently undergoes reaction with the aryl halide. The requirement for copper is also similar to that for nickel saltstonly a catalytic amount is needed. Further, a preference among halides on the aromatic ring is noted iodide is replaced preferentially to other halides (Figure 6.10).40... 

Monocarbamoylation of diols is generally accomplished only with great difficulty. Reaction of the diol with an alkyl isocyanate is a possibility, but trimerization of the isocyanate frequently occurs [73]. The monocarbamic esters, which have PAF receptor antagonist activity, can be obtained however in acceptable yields via the phase-transfer catalysed in situ formation of the alkyl isocyanate from potassium isocyanate and an alkyl halide, and its subsequent reaction with the diol (see Scheme 3.8 for typical examples) [74], The diols tend to react more rapidly than do simple alcohols and m-diols are more effectively esterified that are /ra/rs-diols. Additionally, the longer the chain length between the hydroxyl centres, the less effective is the reaction. This has led to the reasonable hypothesis that a cyclic H-bonded intermediate between the two hydroxyl groups and the alkyl isocyanate are critical for the preferential and rapid formation of the carbamate. 

Palladium complexes exhibit even higher catalytic activity and produce branched acids preferentially.132 133 The selectivity, however, can be shifted to the formation of linear acids by increasing the phosphine concentration.134 Temperature, catalyst concentration, and solvent may also affect the isomer ratio.135 Marked increase in selectivity was achieved by the addition of Group IVB metal halides to palladium136 and platinum complexes.137 Linear acids may be prepared with selectivities up to 99% in this way. The formic acid-Pd(OAc)2-l,4-bis(diphe-nylphosphino)butane system has been found to exhibit similar regioselectivities.138 Significant enhancements of catalytic activity of palladium complexes in car-bomethoxylation by use of perfluoroalkanesulfonic acid resin cocatalysts was reported.139,140... 

The use of mixtures of sodium hydroxide and benzyltrimethylammonium chloride or tetrabutylammonium bromide failed to enhance the DPGE alkylation of HEC by the in situ formation of the corresponding quaternary ammonium hydroxide phase transfer catalyst. These quaternary ammonium halides are too soluble in aqueous /-butyl alcohol and are preferentially extracted into the organic phase. Mixtures of benzyltrimethylammonium hydroxide and sodium acetate were also ineffective in enhancing the DPGE alkylation of HEC for the same reason, namely preferential solubility of benzyltrimethylammonium acetate in the organic phase. 

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