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Addition nucleophilic additions

Protonation of the carbonyl oxygen activates the carbonyl group toward nucleophilic addition Addition of an alcohol gives a tetrahedral inter mediate (shown m the box m the preceding equation) which has the capacity to revert to starting materials or to undergo dehydration to yield an ester... [Pg.823]

In addition to well-known routes to fused heterocyclic systems which are based on displacement of two leaving groups in an aromatic ring, it has been suggested to exploit tandem nucleophilic addition-addition (A —An), addition-substitution of hydrogen (An-Sn ), and double substimtion of hydrogen reactions (Sn -Sn ) on two neighboring carbons (Scheme 54) [11,114-116, 169-176]. [Pg.33]

Nucleophilic Addition.—Addition of alkyl-lithium reagents to unstrained unconjugated double bonds is observed when complexation of the alkyl-lithium is possible by an ether, thioether, or amine within the olefin. Thus (339) is converted into (340) by isopropyl-lithium in 95 % yield. A transition... [Pg.71]

Example Solvation can have a profound effect on the potential energy profile for a reaction. Jorgensen s research group provided important insights into the role of solvation. Consider the nucleophilic addition of the hydroxide anion to formaldehyde ... [Pg.15]

These systems nitrate aromatie eompounds by a proeess of electro-philie substitution, the eharacter of whieh is now understood in some detail ( 6.1). It should be noted, however, that some of them ean eause nitration and various other reactions by less well understood processes. Among sueh nitrations that of nitration via nitrosation is especially important when the aromatic substrate is a reactive one ( 4.3). In reaetion with lithium nitrate in aeetie anhydride, or with fuming nitrie aeid, quinoline gives a small yield of 3-nitroquinoline this untypieal orientation (ef. 10.4.2 ) may be a eonsequenee of nitration following nucleophilic addition. ... [Pg.2]

With the dicyclohexylcarbodiimide (DCQ reagent racemization is more pronounced in polar solvents such as DMF than in CHjCl2, for example. An efficient method for reduction of racemization in coupling with DCC is to use additives such as N-hydroxysuccinimide or l-hydroxybenzotriazole. A possible explanation for this effect of nucleophilic additives is that they compete with the amino component for the acyl group to form active esters, which in turn reaa without racemization. There are some other condensation agents (e.g. 2-ethyl-7-hydroxybenz[d]isoxazolium and l-ethoxycarbonyl-2-ethoxy-l,2-dihydroquinoline) that have been found not to lead to significant racemization. They have, however, not been widely tested in peptide synthesis. [Pg.231]

The Pd—C cr-bond can be prepared from simple, unoxidized alkenes and aromatic compounds by the reaction of Pd(II) compounds. The following are typical examples. The first step of the reaction of a simple alkene with Pd(ll) and a nucleophile X or Y to form 19 is called palladation. Depending on the nucleophile, it is called oxypalladation, aminopalladation, carbopalladation, etc. The subsequent elimination of b-hydrogen produces the nucleophilic substitution product 20. The displacement of Pd with another nucleophile (X) affords the nucleophilic addition product 21 (see Chapter 3, Section 2). As an example, the oxypalladation of 4-pentenol with PdXi to afford furan 22 or 23 is shown. [Pg.13]

Pd(II) compounds coordinate to alkenes to form rr-complexes. Roughly, a decrease in the electron density of alkenes by coordination to electrophilic Pd(II) permits attack by various nucleophiles on the coordinated alkenes. In contrast, electrophilic attack is commonly observed with uncomplexed alkenes. The attack of nucleophiles with concomitant formation of a carbon-palladium r-bond 1 is called the palladation of alkenes. This reaction is similar to the mercuration reaction. However, unlike the mercuration products, which are stable and isolable, the product 1 of the palladation is usually unstable and undergoes rapid decomposition. The palladation reaction is followed by two reactions. The elimination of H—Pd—Cl from 1 to form vinyl compounds 2 is one reaction path, resulting in nucleophilic substitution of the olefinic proton. When the displacement of the Pd in 1 with another nucleophile takes place, the nucleophilic addition of alkenes occurs to give 3. Depending on the reactants and conditions, either nucleophilic substitution of alkenes or nucleophilic addition to alkenes takes place. [Pg.21]

Chlorohydrin 61 is formed by the nucleophilic addition to ethylene with PdCl2 and CuCl2[103,104]. Regioselective chlorohydroxylation of the allylic amine 62 is possible by the participation of the heteroatom to give chlorohydrin 63. Allylic sulfides behave similarly[105]. [Pg.30]

The conversion of indoles to oxindoles can be achieved in several ways. Reaction of indoles with a halogenaling agent such as NCS, NBS or pyridin-ium bromide perbromide in hydroxylic solvents leads to oxindoles[l]. The reaction proceeds by nucleophilic addition to a 3-haloindolenium intermediate. [Pg.152]

Nucleophilic addition of 2-aminothiazole to the double bond of di-maleic acid hydrazine has been reported (206). No spectroscopic proof, however, is given to establish the proposed structure (60) for the resulting product (Scheme 41). [Pg.40]

The only reported example of nucleophilic addition to a C C bond is intramolecular it is observed when propiolic acid is added to 2-aminothiazole producing (109) (see p. 53). [Pg.58]

Scheme 97). Stepanov has thoroughly studied this nucleophilic reactivity some examples are given in Refs. 423 and 424. The formation of 5-benzylidene derivatives involves the same nucleophilic reactivity (422). 5-Benzothiazoline and 5-benzose enazoline derivatives of 2-diphenylaminothiazoline-4-one, have been obtained by nucleophilic addition of the thiazolone on the corresponding benzothiazolium or ben-zoselenazolium salts (433). [Pg.424]

The reaction of amines with the 4-phenylazo derivative (228) results in their rearrangement into triazolines. Depending on the basicity of the amines and the size of the alkoxy group, three different triazolines (229. 230, and 231) are obtained (Scheme 117) (454. 459, 472). In all cases, the first step involves nucleophilic addition of the amine to the carbonyl group followed by ring opening and further ring closure. [Pg.434]

Aldehydes and Ketones Nucleophilic Addition to the Carbonyl Group... [Pg.703]

ALDEHYDES AND KETONES NUCLEOPHILIC ADDITION TO THE CARBONYL GROUP... [Pg.703]

Although the present chapter includes the usual collection of topics designed to acquaint us with a particular class of compounds its central theme is a fundamental reaction type nucleophilic addition to carbonyl groups The principles of nucleophilic addition to aide hydes and ketones developed here will be seen to have broad applicability m later chap ters when transformations of various derivatives of carboxylic acids are discussed... [Pg.703]

The most important chemical property of the carbonyl group is its tendency to undergo nucleophilic addition reactions of the type represented m the general equation... [Pg.712]

The next section explores the mechanism of nucleophilic addition to aldehydes and ketones There we 11 discuss their hydration a reaction m which water adds to the C=0 group After we use this reaction to develop some general principles we 11 then survey a number of related reactions of synthetic mechanistic or biological interest... [Pg.712]

PRINCIPLES OF NUCLEOPHILIC ADDITION HYDRATION OF ALDEHYDES AND KETONES... [Pg.712]

See other pages where Addition nucleophilic additions is mentioned: [Pg.839]    [Pg.846]    [Pg.829]    [Pg.860]    [Pg.1048]    [Pg.6]    [Pg.110]    [Pg.14]    [Pg.40]    [Pg.48]    [Pg.51]    [Pg.7]    [Pg.435]    [Pg.712]    [Pg.712]   
See also in sourсe #XX -- [ Pg.132 , Pg.133 , Pg.134 , Pg.135 , Pg.136 , Pg.137 , Pg.138 , Pg.139 , Pg.140 , Pg.177 , Pg.178 ]



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