The industrial applications of benzoxazines are limited due to their high curing temperatures. This drawback can be overcome by more reactive precursor compared to conventional benzoxazines or by application of efficient initiators. We report the synthesis of a new resorcinol-based benzoxazine and its cationic polymerization with thermolatent super acids, namely organic sulfonium hexafluoroantimonates. This combination of a reactive precursor and an efficient initiator results in a curing temperature below 100 °C (differential scanning calorimetry onset) which is up to now one of the lowest polymerization temperatures for benzoxazine systems. Furthermore, the thermal stability of the formed polybenzoxazine has not been influenced by the applied initiators
Chlorins (dihydroporphyrins) are considered, due to their ideal photophysical properties, as attractive photosensitizers for photodynamic therapy (PDT) of cancer and other therapeutic and diagnostic applications. Chlorophyll [Formula: see text], as a naturally occurring chlorin, forms an almost unlimited renewable resource for preparation of potential biologically active chlorin photosensitizers and fluorescence markers. To achieve amphiphilic photosensitizers which might be selectively enriched in tumor cells, we addressed linkage of per se lipophilic chlorophyll derivatives with carbohydrate based hydrophilic aminopolyols.
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