Intramolecular meerwein reactions of the anthraquinone system. Synthesis, X‐ray structural analysis and spectroscopic properties of anthra[9,1‐ bc :10,5‐ b'c' ]tetrahydrodipyran derivatives

Abstract Meerwein reactions of 1,5‐anthraquinone bis(diazonium hydrogen sulfate) with sufficiently activated olefins, such as acrylonitrile, acrylic esters, methacrylonitrile and its esters, styrene and α‐methylstyrene yielded derivatives of the new heterocyclic system anthra[9,1‐ bc :10,5‐ b'c' ]‐2,3,7,8‐tetrahydrodipyran. Isolation of derivatives was realized and yields enhanced by using dimethyl methylphosphonate as reaction medium. Compounds 5–18 were isolated as mixtures of diastereomers, some of which were separated by crystallization. Proof of structure and stereochemistry was obtained for some of the compounds by X‐ray crystallographic analysis. The 1 H‐ and 13 C‐nmr data provided further support. Surprisingly large chemical shift differences between some of the proton signals of isomers were observed although the two asymmetric centers are far apart through bonds and through space. The mechanism of formation is explained on the basis of redox modulation of a charge transfer complex in which the aliphatic radical attacks the oxygen atom of the anthraquinone. It is proposed to classify this new type of reaction as an intramolecular Meerwein reaction.