A pH-sensitive double [60]fullerene-end-capped polymers via ATRP: Synthesis and aggregation behavior

A double [60]fullerene (C₆₀)-end-capped water-soluble polymer [C₆₀-DMAEMA₆₈-C(CH₃)₂COOCH₂]₂ was synthesized by cycloaddition of the double azido-terminated [DMAEMA₆₈-C(CH₃)₂COOCH₂]₂ with C₆₀. The well-defined [Br(Cl)-DMAEMA₆₈-C(CH₃)₂COOCH₂]₂ was first synthesized via ATRP using ethylene bis(2-bromoisobutyrate) as initiator in ethanol. TGA and spectrophotometric analyses confirmed that monoaddition to C₆₀ had occurred. In aqueous solution, [C₆₀-DMAEMA₆₈-C(CH₃)₂COOCH₂]₂ self-assembled into flower micelles. The aggregation behaviors in unbuffered distilled water and in acidic solution at pH 3 were studied by laser light scattering (LLS). The micelles formed in distilled water has an aggregation number (N_agg) of ∼242 which is about three times larger than that at pH 3 solution (N_agg = 81). However, the micellar size is bigger at pH 3, due to the highly stretched corona resulting from the charge repulsion among the protonated amino groups. After calcination, the C₆₀ core could be seen clearly by AFM. The critical micelle concentration (CMC) of [C₆₀-DMAEMA₆₈-C(CH₃)₂COOCH₂]₂ is lower in unbuffered distilled water (28.6 mg dm⁻³) than in solution at pH 3 (176.8 mg dm⁻³).