Department of Chemistry, College of Sciences, Northeastern University, Shenyang, China.
J Colloid Interface Sci. 2011 Sep 1;361(1):219-25. doi: 10.1016/j.jcis.2011.05.039. Epub 2011 May 23.
Anion exchange membranes with semi-interpenetrating polymer network (semi-IPN) were prepared based on quaternized chitosan (QCS) and polystyrene (PS). The PS was synthesized by polymerization of styrene monomers in the emulsion of the QCS in an acetic acid aqueous solution under nitrogen atmosphere at elevated temperatures. The semi-IPN system was formed by post-cross-linking of the QCS. A hydroxyl ionic conductivity of 2.80×10(-2) S cm(-1) at 80°C and a tensile stress at break of 20.0 MPa at room temperature were reached, respectively, by the semi-IPN membrane containing 21 wt.% of the PS. The durability of the semi-IPN membrane in alkaline solutions was tested by monitoring the variation of the conductivity and the mechanical strength. The degradation of the conductivity at 80°C was about 5% by immersing the membrane in a 1 mol L(-1) KOH solution at room temperature for 72 h and at 60°C for 50 h, respectively. The tensile stress at break at room temperature could maintain about 20.0 MPa for the membrane soaking in a 10 mol L(-1) KOH solution at ambient temperature for more than 70 h. The water swelling of the semi-IPN membranes was discussed based on the stress relaxation model of polymer chains, and it obeyed the Schott's second-order swelling kinetics.
基于季铵化壳聚糖(QCS)和聚苯乙烯(PS)制备了具有半互穿聚合物网络(semi-IPN)的阴离子交换膜。PS 通过在氮气气氛下于高温下在 QCS 的乳液中聚合苯乙烯单体而合成。通过 QCS 的后交联形成了 semi-IPN 体系。半互穿网络膜在 21wt%PS 的含量下,分别在 80°C 时达到 2.80×10(-2) S cm(-1)的羟基离子电导率和在室温下达到 20.0 MPa 的拉伸断裂应力。通过监测电导率和机械强度的变化来测试半互穿网络膜在碱性溶液中的耐久性。将膜分别在室温下的 1 mol L(-1) KOH 溶液和 60°C 下的 50 h 中浸泡,在 80°C 下的电导率降解约为 5%。将膜浸泡在室温下的 10 mol L(-1) KOH 溶液中超过 70 h 后,室温下的拉伸断裂应力仍能保持在约 20.0 MPa。根据聚合物链的应力松弛模型讨论了 semi-IPN 膜的溶胀行为,其符合 Schott 的二级溶胀动力学。
