In a common salt-in-polymer electrolyte, a polymer which has polar groups in the molecular chain is necessary because the polar groups dissolve lithium salt and coordinate cations. Based on the above point of view, polystyrene [PS] that has nonpolar groups is not suitable for the polymer matrix. However, in this PS-based composite polymer-in-salt system, the transport of cations is not by segmental motion but by ion-hopping through a lithium percolation path made of high content lithium salt. Moreover, Al2O3 can dissolve salt, instead of polar groups of polymer matrix, by the Lewis acid-base interactions between the surface group of Al2O3 and salt. Notably, the maximum enhancement of ionic conductivity is found in acidic Al2O3 compared with neutral and basic Al2O3 arising from the increase of free ion fraction by dissociation of salt. It was revealed that PS-Al2O3 composite solid polymer electrolyte containing 70 wt.% salt and 10 wt.% acidic Al2O3 showed the highest ionic conductivity of 9.78 × 10-5 Scm-1 at room temperature.
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机译:在普通的聚合物盐中电解质中,在分子链中具有极性基团的聚合物是必需的,因为极性基团溶解锂盐并配位阳离子。基于以上观点,具有非极性基团的聚苯乙烯[PS]不适用于聚合物基体。但是,在这种PS基复合盐中聚合物体系中,阳离子的传输不是通过节段运动而是通过通过高含量锂盐制成的锂渗透路径的离子跳跃。此外,Al2O3可以通过Al2O3的表面基团和盐之间的路易斯酸碱相互作用来溶解盐,而不是溶解聚合物基质的极性基团。值得注意的是,与中性和碱性Al2O3相比,酸性Al2O3的离子电导率最大增强,这是由于盐解离而使自由离子分数增加所致。揭示了包含70重量%的盐和10重量%的酸性Al 2 O 3的PS-Al 2 O 3复合固体聚合物电解质在室温下显示出最高的离子电导率9.78×10-5 Scm-1。
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