Abstract Reaction of diversely configured and substituted, unbranched methyl d -hexopyranosides with the DAST in dichloromethane or acetonitrile led to normal substitution products and/or rearranged fluoro compounds (ring-contracted 2,5-anhydro-1-fluoro-1- O -methylhexitol derivatives, 2-methoxy- d -hexopyranosyl fluorides, and, for some 3-azido substrates, rearranged 2-azido-3-fluoro- d -hexopyranosides). When the reaction was performed in acetonitrile, the solvent participation as a nucleophile (Ritter reaction) was observed in one case. For a 2,4-unprotected 3-azido substrate, 2,3-dehydration and fluorination at C(4), the latter with epimerization, took place. 19 F/ 1 H and 19 F/ 13 C coupling constant values were systematically applied to discriminate between isomeric structures for fluorinated products, and for some, previously described, coming from five 3-branched-chain d - or l -hexopyranosides, thus discarding the previously reported structural assignment. From the synthetic point of view, the most outstanding result was the preparation of 2,5-anhydro-1-fluoro-1- O -methylhexitols, showing a latent formyl group functionality, a transformation, which was achieved in one case. A rationalization for the formation of the different types of product is also proposed.

Load

Load