Electrochemical performance of interfacially polymerized polyaniline nanofibres as electrode materials for non-aqueous redox supercapacitors

H+ doped polyaniline nanofibre(PH) was synthesized by interfacial polymerization and polyanilines doped with Li salt(PLI and PHLI) were prepared by immersing emeraldine base(EB) and H+ doped polyaniline in 1 mol/L LiPF6/(EC-EMC-DMC),respectively.PH,PLI and PHLI were all characterized by scanning electron microscopy(SEM) and Fourier transform infrared(FT-IR) spectrometry.With 1 mol/L LiPF6/(EC-EMC-DMC) as electrolyte,PH,PHLI and PLI were used as the active materials of symmetric non-aqueous redox supercapacitors.PLI shows the highest initial specific capacitance of 120 F/g(47 F/g for PH and 66 F/g for PHLI) among three samples.After 500 cycles,the specific capacitance of PLI remains 75 F/g,indicating the good cycleability.

用金属茂催化聚合氧乙烯基丙烯及其聚合物性能

用茂金属Et(Ind)2ZrCl2和助催化剂MAO催化聚合了用甲氧基封端保护的侧链含氧原子的烯烃———[甲氧基-低聚(氧乙烯基)]-g-丙烯(MOP).用IR和1H-NMR表征了所得到的单体(MOP)和相应聚合物(PMOP).探讨了主要聚合条件对聚合反应的影响,以及PMOP与锂盐共混后的电导行为.研究表明,茂金属MAO可以催化用甲氧基封端保护的含氧原子烯烃的聚合,在MAO与Et(Ind)2ZrCl2物质的量比为1600,反应2h,60℃真空干燥后,该含氧乙烯基支链丙烯的聚合活性为8.2×104g(mol·h).氧乙烯基丙烯均聚物和甲氧基-低聚(聚氧乙烯)磺酸锂共混物的配比不同,其电导率在10-4.6～10-7.5S·cm-1之间.

盐湖提锂纳滤膜研究进展

锂是我国发展新能源等产业的关键资源,进口依赖度大。盐湖提锂是应对锂短缺问题的重要途径,然而盐湖中高浓度的伴生镁离子给高效提锂带来挑战。纳滤膜可通过孔径筛分和电荷排斥效应的协同,有效分离镁锂离子,在盐湖提锂中扮演着重要的角色。本文从纳滤膜结构(孔径、电荷、厚度)调控出发,介绍了新单体设计、表面改性、共混掺杂、底膜改性等膜结构调控策略,阐述了膜结构与镁锂分离性能的构效关系,总结了不同制膜方法在镁锂分离过程中的优劣,展望了新型镁锂分离纳滤膜的研究方向。