基于动态Mg^(2+)-吲哚的可修复可回收聚六氢三嗪薄膜的制备及性能  

作　　者：吴禄锟 李亿程 张林[3] 常冠军 Lukun Wu;Yicheng Li;Lin Zhang;Guanjun Chang(State Key Laboratory of Environmentally Friendly Energy Materials,Southwest University of Science and Technology,Mianyang 621010,China;School of Materials Science and Engineering,Southwest University of Science and Technology,Mianyang 621010,China;Laser Fusion Research Center,China Academy of Engineering Physics,Mianyang 621010,China)

机构地区：[1]西南科技大学环境友好能源材料国家重点实验室,四川绵阳621010 [2]西南科技大学材料科学与工程学院,四川绵阳621010 [3]中国工程物理研究院激光聚变研究中心,四川绵阳621010

出　　处：《高分子材料科学与工程》2022年第9期124-131,共8页Polymer Materials Science & Engineering

基　　金：国家自然科学基金资助项目(21973076);四川省杰出青年基金资助项目(2021JDJQ0033);中国工程物理研究院创新发展基金资助项目(CX20210039)。

摘　　要：以色胺(Tryp)、聚(丙二醇)双(2-氨基丙醚)(D-400)和多聚甲醛为原料,简单共聚制备一系列吲哚基聚六氢三嗪(IN-PHT)聚合物薄膜材料,将聚合物薄膜用MgCl_(2)水溶液浸泡后烘干,得到Mg^(2+)-吲哚动态交联的聚六氢三嗪(Mg-IN-PHT)薄膜材料。元素分布图证实,Mg^(2+)在聚合物Mg-IN-PHT中存在且分布均匀。利用理论计算模拟、紫外可见吸收光谱法、荧光光谱法等手段证明了Mg-IN-PHT薄膜中Mg^(2+)与吲哚基团间形成了阳离子-π相互作用。通过循环拉伸测试表征了Mg-IN-PHT薄膜的力学性能,测试结果表明,Mg-IN-PHT薄膜具有较强的拉伸强度(16.1 MPa)和韧性(206.2%),明显高于IN-PHT薄膜(11.0 MPa,117.0%)。一方面,阳离子-π动态交联增大了聚合物网络中的交联密度,从而增强了薄膜的强度;另一方面,柔性聚合物网络受到外部刺激时易发生分子链的滑移,“点-面”阳离子-π相互作用可以更容易地形成和解除,能量耗散效果较好,从而提高了材料的韧性。同时研究了薄膜材料的热稳定性变化,结果表明,Mg-IN-PHT薄膜热分解温度(280℃)和玻璃化转变温度T_(g)(-10℃)均高于IN-PHT薄膜的热分解温度(234℃)和T_(g)(-16℃)。另外,动态的“点-面”阳离子-π相互作用赋予了Mg-IN-PHT膜优异的可修复和可回收性能。A series of indole-based poly(hexahydrozine)(IN-PHT)flexible film materials were prepared by simple copolymerization of tryptamine(Tryp),poly(propylene glycol)bis(2-aminopropyl ether)(D 400)and paraformaldehyde,and the films were soaked in MgCl_(2) solution to prepare the Mg-poly(hexahydrozine)(Mg-IN-PHT)films crosslinked by Mg^(2+)-indole interaction.The uniform distribution of Mg^(2+)in Mg-IN-PHT was confirmed by EDS.The formation of cationπinteraction between Mg^(2+) and indole was demonstrated by UV,RF and theoretical calculation.The mechanical properties of Mg-IN-PHT films were characterized by cyclic tensile test.The results indicate that Mg-IN-PHT films have the stronger tensile strength(16.1 MPa)and toughness(206.2%),which are significantly higher than IN-PHT films(11.0 MPa,117.0%).On the one hand,cationπcross-linking increases the cross-linking density,thus enhancing the strength of film;on the other hand,the molecular chains of flexible polymer network slip easily when it was externally stimulated.So that the"point-surface"cationπinteractions could be formed and released more easily,and the energy dissipation effect is better,thus the toughness of film is improved.In addition,the thermal stability of Mg-IN-PHT was also investigated.The results indicate that the thermal decomposition temperature(280℃)and T_(g)(-10℃)of Mg-IN-PHT films are higher than those of IN-PHT films(234℃)and(-16℃).Finally,the dynamic“point-surface”cationπinteraction endows Mg-IN-PHT films with excellent self-healing and recycling abilities.

关 键 词：吲哚 聚六氢三嗪 阳离子-π 修复 回收 

分 类 号：TQ320.721[化学工程—合成树脂塑料工业]