Weak nucleophile

The reason for this relative lack of reactivity of 2-methylthiazoIium is probably due to the too-weak nucleophilic character of its carbon-2. For example, any /S-alkoxyalcene (29) derivatives resulting from the condensation of o-ester could never have been isolated, whereas they constitute the essential intermediate step in trimethine syntheses for rings of acidic character (64). However, even if a negative 5-substituent such as ethoxy-carbonyl increases the yield (61) by promoting independently the possible formation of the methylene base, it may be stressed that the presence of this base is not the essential condition of the reaction, since the isolated anhydrobase itself is not reactive toward the o-ester (Scheme 41). 

Tetrafluoroethylene Oxide TFEO has only been prepared by a process employing oxygen or ozone because of its extreme reactivity with ionic reagents. This reactivity may best be illustrated by its low temperature reaction with the weak nucleophile, dimethyl ether, to give either of two products (47) (eq. 10). 

Chloride ions are comparatively weak nucleophiles and do not react with azoles. In general, there is also no interaction of halide ions with azolium compounds. 

Alkylation, acylation, etc. at the heteroatom lead to onium salts. In small systems these are difficult to isolate, and very weakly nucleophilic counterions must be used, such as... 

Table S.16 presents data on some representative nucleophilic substitution processes. The first entry illustrates the use of 1-butyl-l-r/p-bromobenzenesulfonate to dononstrate at primary systems react with inversion, even under solvolysis conditkms in formic acid. The observation of inversion indicates a concerted mechanism in fids weakly nucleophilic solvent.

Like the un-ionized hydroxyl group, an alkoxy group is a weak nucleophile. Nevertheless, it can operate as a neighboring nucleophile. For example, solvolysis of the isomeric p-bromobenzenesulfonate esters 6 and 7 leads to identical prxKluct nuxtures, suggesting the involvement of a common intermediate. This can be explained by involvement of the cyclic oxonium icai which would result from intramolecular participation. ... 

Better yields are attributed to intimate association of the basic nitrile group at the surface of the mtrosomum salt causing nitrosative decomposition of the azide to occur in close proximity to the weakly nucleophilic complex fluoride anion Fluorination yields can be further enhanced to 59-81% by lengthening the azido nitrile chain, but the reaction is accompanied by pronounced secondary fluoronitnle formation arising from rearrangement [100, 101] (Table 8)... 

Fluonnated alkoxides, obtamed by addition of the fluonde anion to a carboxylic halide group, are weak nucleophiles, which can be alkylated [d5,36] (equanons 31 and 32)... 

Dmitrofluorobenzene also serves as an arylation agent for a wide vanety of biologically useful amines including aromatic amines [5b], ammo acids [57], and ammocarbohydrates [55,59] Weak nucleophilic amines such as benzimidazole [60] and fluoroamines [61] can also be arylated (equation 30)... 

The weakly nucleophilic nng nitrogen of unsubstituted 2-aminothiazole replaces the fluorine atom of 2,4-dinitrofluorobenzene, whereas in 5-methyl 2 ami-nothiazole, the 2-ammo function acts as the nucleophile [62] (equation 31)... 

Trifluoroacetates of silver, mercury(II), thallium(lll), lead(IV), and lodme(III) are synthetically valuable reagents that combine the properties of strong electrophiles, oxidizers, and Lewis acids Furthermore, trifluoroacetate anions are stable to oxidation, are weak nucleophiles, and usually do not cause any contamination of the reaction mixture... 

With weak nucleophiles such as methanol, and in the presence of acid, the reaction proceeds via nucleophilic attack on the protonated epoxide. Examine the LUMO of protonatedpropylene oxide. Does this properly identify the site for nucleophilic attack which will lead to the observed product (Hint The most accessible parts of the LUMO are best identified by simultaneously displaying the molecule as a space-filling model and the LUMO as a mesh surface.)... 

The intramolecular variant, reported by Hegedus in 1976, expanded the scope to weakly nucleophilic amines. ort/io-Allylaniline 1 delivered 2-methyl indole in 84% yield using a stoichiometric amount of (CH3CN)2PdCl2 and triethylamine in THF via the intermediacy of 5. 

With a chiral phenylglycinol nucleophile (Scheme 8.4.17), use of the chloride Zincke salt 6 (cf. Scheme 8.4.16) gave decomposition of the salt back to isoquinoline and 2,4-dinitrochlorobenzene. The desired reaction was enabled by exchanging chloride for the weakly nucleophilic dodecyl sulfate anion. The resulting salt 49 also had improved... 

Weak nucleophiles attack the 2-position with ring opening to form pyrrole derivatives after cyclization. The bromopseudooxazalone 62a yields the pyrroline 65 in methanolic potassium carbonate. 

Acylation with acetyl chloride (giving 94) or protonation permits rapid displacement of the nitro group from 4-nitropyridine A-oxide by the weakly nucleophilic chloride Pyridine A-oxide... 

Nevertheless, the adjacent position of the amide and acetylenic groups was used in another type of heterocyclization. The nitrogen atom in the amide group is a weak nucleophile. Therefore, the N anion should be generated by potassium ethoxide. There are two possible variants of nucleophilic addition to the triple bond. Only one takes place, i.e., the formation of y-lactam. After 7 h of heating in EtOH in the presence of KOH, amide 72 isomerized into the known isoindoline 73 in 80% yield (Scheme 128). 

Compounds of the type HC=C—CH=CHXR are not involved in a primary reaction with weak nucleophiles such as CH acids meanwhile, a final (secondary) cyclization with participation of active methylene groups happens to be feasible. Evidently, in most cases the energy gain in the heteroaromatic system realization is the decisive factor (81UK1252). 

Quatemization of the isoxazole nitrogen atom makes the ring particularly susceptible toward nucleophilic attack there is a certain analogy here with pyridine. The cleavage of the ring proceeds extremely readily in quaternary salts of isoxazole, even occurring by the action of such weak nucleophilic agents as the anions of carboxylic acids. 

Acetal formation is similar to the hydration reaction discussed in Section 19.5. Like water, alcohols are weak nucleophiles that add to aldehydes and ketones only slowly under neutral conditions. Under acidic conditions, however, the reactivity of the carbonyl group is increased by protonation, so addition of an alcohol occurs rapidly. 

The dinitrogen complex [Os(NH3)5N2]2+ is a useful synthetic intermediate, while the presence of the weakly nucleophilic triflate group enables it to be easily removed in the synthesis of the dihydrogen complex. 

In all the diazotization reactions discussed in Sections 2.1-2.4 an equimolar amount of water is formed as byproduct. There are two general pathways for obtaining diazonium salts without formation of water. One is based on the rearrangement of 7V-nitroso-7V-arylacetamides, the other on the nitrosation of a monoarylated sp2-hybridized nitrogen compound by nitrosating reagents XNO in which X is a weak nucleophile. 

Acidity has an important influence on diazotization. Correlations of rates of diazotization with acidity and their implications regarding the reaction mechanism were first evaluated by Ridd (reviews Ridd, 1959, 1961, 1965, 1978 Williams, 1983, 1988). In this section we will concentrate mainly on aqueous solutions of sulfuric acid and perchloric acid, as the weakly nucleophilic anions of these acids do not interact with the nitrosating species. The mechanism of diazotization in the presence... 

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