Water‐soluble complex formation of fullerene and thermo‐responsive diblock copolymer Part A Polymer chemistry

A diblock copolymer (P₉₈N₁₀₀) composed of a biocompatible water‐soluble block (PMPC) and a lower critical solution temperature (LCST) type thermo‐responsive block (PNIPAM) was prepared via controlled radical polymerization. To dissolve fullerene (C₆₀) in water, the C₆₀/P₉₈N₁₀₀ complex was prepared by mixing C₆₀ and P₉₈N₁₀₀ powders. The maximum solubilized C₆₀ concentration in water was 1.39 g/L, as estimated from UV–vis adsorption, when the polymer concentration was 5.0 g/L. The percent transmittance of the aqueous solution of the C₆₀/P₉₈N₁₀₀ complex decreased above 36 °C due to inter‐complex association above the LCST for the PNIPAM block. While the hydrodynamic radius of C₆₀/P₉₈N₁₀₀ complex was 135 nm at 20 °C, it increased to 161 nm at 50 °C. Despite the observation of ¹H NMR signals from PMPC and PNIPAM blocks for the C₆₀/P₉₈N₁₀₀ complex in D₂O at room temperature, the signals from PNIPAM disappeared above 35 °C due to restricted motion of PNIPAM. Generation of singlet oxygen (¹O₂) from the C₆₀/P₉₈N₁₀₀ complex by photo‐irradiation was confirmed using 9,10‐anthracene dipropionic acid (ADPA). The absorbance of ADPA decreased with increasing irradiation time due to oxidation of ADPA by ¹O₂. It is expected that the C₆₀/P₉₈N₁₀₀ complex can be applied as a thermo‐responsive carrier for photodynamic therapy. © 2017 Wiley Periodicals, Inc. J. Polym. Sci., Part A: Polym. Chem. 2017, 55, 2432–2439