DESIGN OF UNUSUAL CAPTODATIVE METHYLENE SUBSTRATE - 1-ALKYL-4(3)-(AZOLYLMETHYL)PYRIDINIUM SALTS

The unprecedented spontaneous oxidation of a carbon atom linked to captor (acceptor) and donor non-classical functional groups of several examples of 1-alkyl-4(3)-(1H-azolylmethyl)pyridinium salts 1 and 2 exemplifies a concomitant application of the arenoanalogy principle and the captodative effect in organic synthesis. A remarkably driving force by the nature of non-classical acceptor and donor heteroaromatic rings is observed upon the chemical behavior of the title compounds 1 and 2, modulating the susceptibility with which the methylene spacers oxidize to their oxomethyl counterparts 5 and 6. Access to dipolar 1-alkyl-3-pyridiniomethyl-33(5)-1,2,4-triazolate inner salts 4 was achieved.