Abstract

A new method of preparation of poly(alkylene H-phosphonate)s (1) by polycondensation of diphenyl H-phosphonate with diols such as 1,10-decanediol or tetra(oxyethylene) glycol is described. These polymers can be converted into poly(alkylene phosphate)smimicking backbones of nucleic acids and other biomacromolecules. The described method is the only one allowing simple preparation of this important class of polymers. This method eliminates the major side reaction taking place when dialkyl H-phosphonates are used and is related to the C-alkylation and formation of the unreactive ether end groups. Reaction of diphenyl H-phosphonate with alcohols is practically irreversible and can be performed without removing phenol, formed as a byproduct of condensation. It can be carried out in solvent or in bulk at temperature 80−200 °C. Removing phenol enhances, however, formation of polymers with higher Mn. Polymers with Mn ∼ 30 × 103 were obtained and characterized as such or in the form of their derivatives. Chlorin...

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