Oxygen nucleophilic substitution

The regioselectivity in the methoxydefluorination reactions of difluoroquinolines has been examined.48 Studies of the substitution patterns in 2-cyano-3-nitroimidazole[l,2-a lpyridine have shown that nitrogen and oxygen nucleophiles substitute the 2-cyano group whereas sulfur nucleophiles replace the 3-nitro group.49... 

An advantage that sulfonate esters have over alkyl halides is that their prepara tion from alcohols does not involve any of the bonds to carbon The alcohol oxygen becomes the oxygen that connects the alkyl group to the sulfonyl group Thus the configuration of a sulfonate ester is exactly the same as that of the alcohol from which It was prepared If we wish to study the stereochemistry of nucleophilic substitution m an optically active substrate for example we know that a tosylate ester will have the same configuration and the same optical purity as the alcohol from which it was prepared... 

A long standing method for the preparation of ethers is the Williamson ether synthesis Nucleophilic substitution of an alkyl halide by an alkoxide gives the carbon-oxygen bond of an ether... 

Next in what amounts to an intramolecular Williamson ether synthesis the alkoxide oxygen attacks the carbon that bears the halide leaving group giving an epoxide As m other nucleophilic substitutions the nucleophile approaches carbon from the side oppo site the bond to the leaving group... 

Nucleophilic substitution of the chlorine atom in 2-chloropyrazine and 2-chloroquinoxa-lines has been effected with a variety of nucleophiles, including ammonia and amines, oxygen nucleophiles such as alkoxides, sodium azide, hydrazine, sulfur containing nucleophiles, cyanide, etc., and reactions of this type are typical of the group (see Chapter 2.02). 

S-Substituted thiiranium ions react with water and alcohols to give trans ring opening (Scheme 72). A report that oxygen nucleophiles attack sulfur as well as carbon has been shown to be incorrect (79ACR282). The intermediate thiiranium ion (57) in the presence of lithium perchlorate readily yields the carbenium ion which undergoes a transannular hydride... 

The relative solvolysis rates in 50% ethanol—water of four isomeric p-bromobenze-nesulfonates are given below. R and T give an identical product mixture comprised of V and W, whereas S gives X and Y. Analyze these data in terms of possible participation of the oxygen atom in nucleophilic substitution. 

The experimental observations combine with the principles of nucleophilic substitution to give the picture of epoxide ring opening shown in Figure 16.5. The nucleophile attacks the less crowded carbon from the side opposite the carbon-oxygen bond. Bond... 

Al, as shown in structure 3), the molecularity (1 or 2), and the ionic form of the substrate [A for conjugate acid RC(OH)OR and B for conjugate base RCOOR]. Note that alkyl-oxygen fission constitutes nucleophilic substitution and is therefore equivalent to the classification ... 

These Br nsted-type plots often seem to be scatter diagrams until the points are collated into groups related by specific structural features. Thus, p-nitrophenyl acetate gives four separate, but parallel, lines for reactions with pyridines, anilines, imidazoles, and oxygen nucleophiles.Figure 7-4 shows such a plot for the reaction of trans-cmmm c anhydride with primary and secondary aliphatic amines to give substituted cinnamamides.All of the primary amines without substituents on the a carbon (R-CHi-NHi) fall on a line of slope 0.62 cyclopentylamine also lies on this line. If this line is characteristic of normal behavior, most of the deviations become qualitatively explicable. The line drawn through the secondary amines (slope 1.98) connects amines with the structure R-CHi-NH-CHi-R. The different steric requirements in the acylation reaction and in the model process... 

The reactions shown above are nucleophilic substitutions that involve replacement of bromine by oxygen. The reactions may or may not proceed by similar mechanisms. 

Ab initio calculations suggested that the oxygen-substituted compounds 40 and 41 should be much better candidates for nucleophilic substitution reactions that follow pathway b than the halo salts belonging to the 7a-7i family (Scheme 9). Tire properties of the CCls-substituted cation of 43 should reveal more similarities with those of 7a than with those of 40 and 41. 

Alkyl halides are encountered less frequently than their oxygen-containing relatives alcohols and ethers, but some of the kinds of reactions they undergo—nucleophilic substitutions and eliminations—are encountered frequently. Thus, alkyl halide chemistry acts as a relatively simple model for many mechanistically similar but structurally more complex reactions found in biornolecules. We ll begin in this chapter with a look at how to name and prepare alkyl halides, and we ll see several of their reactions. Then in the following chapter, we ll make a detailed study of the substitution and elimination reactions of alkyl halides—two of the most important and well-studied reaction types in organic chemistry. 

Alternatively, an alcohol can be made more reactive toward nucleophilic substitution by treating it with p ra-toluenesulfonyl chloride to form a tosylate. As noted on several previous occasions, tosylates are even more reactive than halides in nucleophilic substitutions. Note that tosylate formation does not change the configuration of the oxygen-bearing carbon because the C-0 bond is not broken. 

With Oxygen Nucleophiles Aziridine ring-opening of 111 (Scheme 3.42) with water in the presence of a catalytic amount of TsOH gave the corresponding (3-hydrox-yphenylalanine derivative 121 in 72% yield as the major isomer [74], Treatment of N-(p-tolylsulfmyl) aziridine-2-carboxylates with TFA and subsequent aqueous workup resulted in the formation of j3-substituted serine derivatives [62, 63, 101]. Under these reaction conditions, not only was the aziridine ring opened, but also the N-sulfmyl group was removed treatment of 122 (Scheme 3.43) with TFA at 73 °C, for example, afforded 123 in 75% yield [101],... 

Cu-exchanged zeolites have been examined in the nucleophilic substitution of halobenzenes towards aminated and oxygenated systems. Selectivities are dependent on the zeolite s pore sizes. 

All the mechanisms so far discussed take place at a saturated carbon atom. Nucleophilic substitution is also important at trigonal carbons, especially when the carbon is double bonded to an oxygen, a sulfur, or a nitrogen. Nucleophilic substitution at vinylic carbons is considered in the next section at aromatic carbons in Chapter 13. 

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