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In this paper, we report on the comprehensive alcohol-/ion-responsive properties of a smart copolymer poly(Nisopropylacrylamide-co-benzo-18-crown-6-acrylamide)(P(NIPAM-co-BCAm)). The orthogonal design method is adopted for experimental design. The experimental results show that alcohol can trigger the shrinking and Ba2+can induce the swelling of the P(NIPAM-co-BCAm) copolymer. According to the phase transition temperature(LCST) change results of the copolymer, the influence of variables on the LCST changes weakens in the following order: alcohol concentration N alcohol species N metal ion species N BCAm concentration N ion concentration. The larger the alcohol concentration and the larger the molecular size of alcohols, the lower the LCST value; on the contrary, the more the BCAm content in the copolymer or the larger the BCAm/ion complex stability constant(lgK) or the larger the ion concentration is, the higher the LCST value. For a P(NIPAM-co-BCAm)copolymer with a fixed BCAm content, a binary function of ion concentration and lgK of BCAm/ion is developed to precisely predict the LCST values of the copolymer in different metal ion solutions. The results provide valuable information for fabricating artificial biomimetic G-protein-gated inwardly rectifying potassium(GIRK) channels that are activated by alcohol and inhibited by Ba~(2+).
In this paper, we report on the comprehensive alcohol- / ion-responsive properties of a smart copolymer poly (Nisopropylacrylamide-co-benzo-18-crown-6-acrylamide) The experimental results show that alcohol can trigger the shrinking and Ba2 + can induce the swelling of the P (NIPAM-co-BCAm) copolymer. According to the phase transition temperature (LCST) change results of the copolymer , the influence of variables on the LCST changes weakens in the following order: alcohol concentration N alcohol species N metal ion species N BCAm concentration N ion concentration. The larger the alcohol concentration and the larger the molecular size of alcohols, the lower the LCST value ; on the contrary, the more the BCAm content in the copolymer or the larger the BCAm / ion complex stability constant (lgK) or the larger the ion concentration is, the higher the LCST value. For a P (NIPAM-co-BCAm) copolymer with a fixed BCAm content, a binary function of ion concentration and lgK of BCAm / ion is developed to precisely predict the LCST values of the copolymer in different metal ion solutions. The results provide valuable information for fabricating artificial biomimetic G-protein-gated inwardly rectifying potassium (GIRK) channels that are activated by alcohol and inhibited by Ba ~ (2+).