Azido derivative reaction conditions

Cyclization of the furanose derivative 340 was mediated by the action of sodium hydride to afford 341 (R = Ts) in 90% yield. The amine 340 had been obtained from the azide 342 and it was later found that thermolysis of this 1,3-azido alcohol under Staudinger reaction conditions (triphenylphosphine in f-xylene) gave the azetidine 341 (R = H) directly in 99% yield <2003TL5267>. 

Azide ions are by far the most common nucleophilic species employed in substitution reactions for the preparation of amino sugars. An azido moiety is stable under many reaction conditions but can be reduced to an amino group by a variety of reagents. The nucleophilicity of azido ions can be increased by the addition of a suitable crown ether to complex the counterion.36c,63b In the past, ammonia and hydrazine were used as nucleophiles to overcome unfavourable dipolar interactions that arise when charged nucleophiles were used. However, a drawback of the use of these nucleophiles is that the product is still nucleophilic and can perform a second displacement. Phthalimide ions have successfully been applied in displacement reactions to yield a protected amino sugar derivative.58 63f... 

Attempts to prepare an ATP analog by condensation of the azido derivative of glycine with ATP under our standard conditions were unsuccessful. Presumably the nucleophilic reaction center, i.e.,... 

The first application of the alkyltrifluoroborate salts was the conversion into alkyldihaloboranes by silyl hahdes and subsequent reaction with alkyl azides [77]. An example of a usefid synthesis was the preparation of (S)-2-phenylpyrrolidine (141) (Scheme 8.32). (S)-DICHED (3-bromopropyl)boronate (13S) was converted into the 3-azido derivative 136 at reflux temperature under phase-transfer conditions. The usual reaction with (dichloromethyl)lithium followed by phenylmagnesium bromide to form DICHED ester 137 was followed by treatment with potassium bifluoride in aqueous methanol to provide the alkyltrifluoroborate salt 138. Neither boronic esters nor alkyltrifluoroborate salts react with alkyl azides. Reaction of 138 with trimethylsi-lyl chloride yielded (S)-2-phenylpyrrolidine (141), but reaction with silicon tetrachloride proved much faster and more efficient. At first it was thought that the intermediates 139 and 140 were probably difluoroboranes in accord with literature precedent [76], but careftil reinvestigation has revealed that reaction of alkyltrifluoroborate salts with silicon tetrachloride in coordinating solvents yields alkyldichloroboranes [78]. 

Photochemical properties of azido derivatives of six-member aza-heterocycles (pyridine, pyrimidine, triazine, quinoline, acridine) are discussed. Data on the stmcture of the reaction products formed under photolysis of azides in different conditions (solvent, temperature, additives), and also data on the matrix isolation spectroscopy of heterocyclic nitrenes, including high-spin nitrenes, produced by low-temperature photolysis of the corresponding azides are shortly examined. 

A useful method for obtaining indazoles in high yields involves treatment of ortho-azido phenyl ketones or aldehydes with hydrazine hydrate. When this reaction was applied to 3-azido-2-formylselenophene, selenolo[3,2-c] pyrazole (111) was obtained in low yield. The yield could not be improved when the amino derivative was prepared as an intermediate142 (Scheme 13). 2-Dialkylamino-5-formylselenophenes react with diazonium salts under deformylation conditions to give azo dyes (Eq. 39).143 Another nitrogen-containing derivative of selenophene is compound U2.144 ... 

---