Subject nucleophilic addition reactions

The stereochemical outcome of nucleophilic addition reactions to cyclic ketones is the subject of numerous experimental and theoretical studies, with substituted cyclohexanones and cy-clopcntanones having been intensively studied. In addition reactions to substituted cyclohexanones 1 the problem of simple diastereoselectivity is manifested in the predominance of cither axial attack of a nucleophile, leading to the equatorial alcohol 2 A. or equatorial attack of the nucleophile which leads to the axial alcohol 2B. 

In expanding the number Michael/aldol domino processes, chiral N-sulfinimines 27 could be subjected to a magnesium thiolate in the presence of an acrylate 26 to undergo an asymmetric thio-Michael/nucleophilic addition reaction (Scheme 7.4)... 

The nucleophilic reactivity of dithiocarbamate anions has been the subject of a variety of papers, describing the reactions of alkali-metal dithiocarbamate salts with the common organic solvents methylene chloride, chloroform, and acetonitrile, with alkyl halides, a-halogeno-ketones and -aldehydes, chloroacetates, chloro-substituted j-triazines, phthaloyl chloride, oxalyl chloride, and with AW-dimethyl-5 S -dimethyldithiocarbamidium perchlorate. The nucleophilic addition reaction of dialkylammonium NN-dialkyldithiocarbamates with olefins, yielding alkyl dithiocarbamates, has also been described. ... 

In a novel alkylating method that has been published, the dianion of carboxylic acid (177) was subjected, in a first step, to a nucleophilic addition reaction with the Cjo aldehyde ester (169) to give the unstable hydroxy acid (178) (Trost and Fortunak, 1981). The acetylated acid (179) smoothly underwent decarboxylative elimination to give ethyl retinoate (24). 

The diminished electron density makes the carbon-carbon It bond less reactive toward an electrophile. However, for the same reason, the P-carbon atom is electrophilic and can react with nucleophiles. Addition reactions to conjugated systems are the subject of the next section. 

In most reviews of enamine chemistry the reactions of iminium salts are scattered throughout the review and are consequently not covered in a comprehensive manner. This chapter will be an attempt to look at reactions that, at one stage or another, proceed by nucleophilic addition to the iminium intermediate. The subject of enamines has been reviewed 1-4) and certain aspects of iminium salt chemistry such as reduction of aromatic quaternary salts have been treated in detail (5). Consequently, the reduction of aromatic quaternary salts with complex hydrides will be presented here only briefly. Although the literature (especially 1950-1967) has been checked with care, the author can make no claim to completeness. The... 

Chiral oxazolines developed by Albert I. Meyers and coworkers have been employed as activating groups and/or chiral auxiliaries in nucleophilic addition and substitution reactions that lead to the asymmetric construction of carbon-carbon bonds. For example, metalation of chiral oxazoline 1 followed by alkylation and hydrolysis affords enantioenriched carboxylic acid 2. Enantioenriched dihydronaphthalenes are produced via addition of alkyllithium reagents to 1-naphthyloxazoline 3 followed by alkylation of the resulting anion with an alkyl halide to give 4, which is subjected to reductive cleavage of the oxazoline moiety to yield aldehyde 5. Chiral oxazolines have also found numerous applications as ligands in asymmetric catalysis these applications have been recently reviewed, and are not discussed in this chapter. ... 

The subjects of structure and bonding in metal isocyanide complexes have been discussed before 90, 156) and will not be treated extensively here. A brief discussion of this subject is presented in Section II of course, special emphasis is given to the more recent information which has appeared. Several areas of current study in the field of transition metal-isocyanide complexes have become particularly important and are discussed in this review in Section III. These include the additions of protonic compounds to coordinated isocyanides, probably the subject most actively being studied at this time insertion reactions into metal-carbon bonded species nucleophilic reactions with metal isocyanide complexes and the metal-catalyzed a-addition reactions. Concurrent with these new developments, there has been a general expansion of descriptive chemistry of isocyanide-metal complexes, and further study of the physical properties of selected species. These developments are summarized in Section IV. 

A diverse group of organic reactions catalyzed by montmorillonite has been described and some reviews on this subject have been published.19 Examples of those transformations include addition reactions, such as Michael addition of thiols to y./bunsatu rated carbonyl compounds 20 electrophilic aromatic substitutions,19c nucleophilic substitution of alcohols,21 acetal synthesis196 22 and deprotection,23 cyclizations,19b c isomerizations, and rearrangements.196 24... 

Azide ion is a modest leaving group in An + Dn nucleophilic substitution reactions, and at the same time a potent nucleophile for addition to the carbocation reaction intermediate. Consequently, ring-substituted benzaldehyde g m-diazides (X-2-N3) undergo solvolysis in water in reactions that are subject to strong common-ion inhibition by added azide ion from reversible trapping of an o -azido carbocation intermediate (X-2 ) by diffusion controlled addition of azide anion (Scheme... 

When 2,2-dichloro-3-phenylpropanal 203 is subjected to standard reaction conditions with chiral triazolium salt 75c, the desired amide is produced in 80% ee and 62% yield Eq. 20. This experiment suggests that the catalyst is involved in an enantioselec-tive protonation event. With this evidence in hand, the proposed mechanism begins with carbene addition to the a-reducible aldehyde followed by formation of activated car-boxylate XLII (Scheme 32). Acyl transfer occurs with HOAt, presumably due to its higher kinetic nucleophilicity under these conditions, thus regenerating the carbene. In turn, intermediate XLin then undergoes nucleophilic attack by the amine and releases the co-catalyst back into the catalytic cycle. 

The authors describe a control experiment in which CTOss-benzoin product 245 was subjected to standard reaction conditions with achiral triazolium pre-catalyst 191 yielding retro-benzoin products, as well as cyclopentene product 247 Eq. 24. This result additionally demonstrates the reversibility of the benzoin reaction. When trimethylsilyl-protected 245 is treated under the same reaction conditions with ethanol as a nucleophile, ketoester 248 is formed along with retro silyl-benzoin and Stetter products. This result provides enough evidence that the cross-benzoin/oxy-Cope mechanism cannot be dismissed. 

Compared with the variety of existing carbon or nitrogen nucleophiles that were subjected to nucleophilic addition to there are few examples for phosphorus nucleophiles. Neutral trialkylphosphines turn out to be to less reactive for an effective addihon to Cjq even at elevated temperatures [114], Trialkylphosphine oxides show an increased reactivity. They form stable fullerene-substituted phosphine oxides [115] it is not yet clear if the reaction proceeds via a nucleophilic mechanism or a cycloaddition mechanism. Phosphine oxide addition takes place in refluxing toluene [115], At room temperature the charge-transfer complexes of with phosphine oxides such as tri-n-octylphosphine oxide or tri-n-butylphosphine oxide are verifiable and stable in soluhon [116],... 

The present review is intended to highlight the use of acetylenic esters in the synthesis of different heterocycles, primarily involving nucleophilic additions. The reactions of heterocyclic bases with acetylenic esters, however, will not be covered here, except in a few cases where it is more appropriate for inclusion here, depending on the type of reactions. The reactions of heterocyclic bases form the subject matter of a separate article. The survey covers the literature up to December 1973. 

In a study of the addition of nitrosyl chloride or nitrosyl bromide to norbor-nene and norbomadiene, it was observed that (a) there was no structural rearrangement during the reaction, (b) a cis addition had taken place, (c) nucleophilic solvents such as ethanol or acetic acid were not incorporated in the products. These facts seem to speak against an ionic addition mechanism, while a free radical initiated by NO radicals was considered unlikely since nitric oxide is inactive toward norbomadiene. Therefore a four-center mechanism has been suggested [70], However, when a relatively simple, unstrained olefin such as A9-octalin was subjected to the reaction, only blue, crystalline, monomeric 9-nitroso-10-chlorodecalin was produced. This product had a trans configuration. Thus it is evident that the structure of the olefin has a significant bearing on the steric course of the addition [71]. 

It has been found that amines frequently are effective catalysts for addition of other nucleophiles to carbonyl groups.108 The reason for this catalysis is that amines can add rapidly to the carbonyl compound to form an imine the imine in turn is subject to the same kinds, of addition reactions as are carbonyl compounds, but reacts faster because it is more easily protonated. Scheme 16 illus-... 

The first step in this multistage reaction is the nucleophilic addition of sulfone anion 28 to aldehyde 8 (Scheme 14.6). This produces a p-alkoxysulfone intermediate 29 which is trapped with acetic anhydride. The resulting P acetoxysulfone mixture 22 is then subjected to a reductive elimination with Na/Hg amalgam to obtain alkene 23. The tendency of Julia-Lythgoe-Kocienski olefinations to provide ( )-1,2-disubstituted alkenes can be rationalised if one assumes that an a-acyloxy anion is formed in the reduction step, and that this anion is sufficiently long-lived to allow the lowest energy conformation to be adopted. Clearly, this will... 

Transferring the results, obtained from the reactions of RSC1 with H20, from parachlorine to chlorine we get a suggestive mechanism which remains speculative till further results on this subject are available. One piece of support for this mechanism can already be provided. Kinetic studies on the reaction Cl2 + H20 — H+ + Cl" + HCIO show that the most probable first step is the nucleophilic addition of H20 at the electrophile atom in Cl2, forming the intermediate... 

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