Abstract

We present an efficient step-growth polymerization method for synthesizing sulfonamide-functionalized poly(phosphonate)s and poly(phosphate)s. The polymerization process involves treating bis(aziridine) with organophosphorus acid in toluene, without the need for any catalyst, yielding the desired polymers in high yields. Six different types of organophosphorus acids and inorganic phosphoric acid were found to be suitable for this method. Thermal analysis of the resulting poly(phosphonate)s and poly(phosphate)s revealed a decomposition temperature (Td,5%) of up to 330 °C at 5 % weight loss, while differential scanning calorimetry (DSC) analysis showed glass transition temperatures (Tg) ranging from 54 to 98 °C. Microscale combustion calorimetry (MCC) analysis demonstrated that the cross-linked poly(phosphate) derived from inorganic phosphoric acid exhibited the lowest peak heat release rate (HRR) and total heat release (THR) compared to the linear ones. These findings are expected to provide a straightforward approach for synthesizing novel phosphorus-containing polymers.

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