The effect of nano-zirconia on the morphology and mechanical properties of PVDF/PAN membrane as separators in super capacitors

Q3 Engineering
W. Lina, Lou Huiqing, L. Wentao, Zong Dingding
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引用次数: 1

Abstract

The PVDF/PAN/ZrO2 (zirconia) composite fibrous membranes were fabricated by electrospinning. The effects of ZrO2 content on solution properties, mechanical properties and crystallisation behaviours as well as related morphology were systematically evaluated. The scanning electron microscopy (SEM) was used to investigate the effect of ZrO2 content on the morphology of PVDF/PAN/ZrO2 composite fibrous membranes, which showed that the diameter is only 0.8 μm when the ZrO2 is 0.4%. It could be attributed to the enhancement of solution conductivity by ZrO2 addition. Nitrogen adsorption based on Brunauer-Emmett-Teller (BET) principle was employed to measure the specific surface area, which indicated that the specific surface area increased about 1.8 times for composite membranes compared to the PVDF/PAN membrane when the ZrO2 content was 0.4%. The tensile strength of fibrous membranes increased from 2.74 of pure PVDF/PAN to 5.11 MPa of PVDF/PAN/ZrO2 when the ZrO2 content was 0.4%. The differential scanning calorimetry (DSC) results showed that the crystallinity and orientation enhanced with increasing of ZrO2, which was beneficial to improve the tensile strength. The Tg and Tc shifted to high temperature with ZrO2 increases, which demonstrated that ZrO2 promoted the heterogeneous nucleation and formed perfect crystal structure.
纳米氧化锆对超级电容器隔膜PVDF/PAN膜形貌和力学性能的影响
采用静电纺丝法制备了PVDF/PAN/ZrO2(氧化锆)复合纤维膜。系统评价了ZrO2含量对溶液性能、力学性能、结晶行为以及相关形貌的影响。利用扫描电子显微镜(SEM)研究了ZrO2含量对PVDF/PAN/ZrO2复合纤维膜形貌的影响,结果表明,当ZrO2含量为0.4%时,PVDF/PAN-ZrO2复合膜的直径仅为0.8μm。采用基于Brunauer-Emmett-Teller(BET)原理的氮吸附来测量比表面积,结果表明,当ZrO2含量为0.4%时,复合膜的比表面积比PVDF/PAN膜增加了约1.8倍。纤维膜的拉伸强度从纯PVDF/PAN的2.74提高到ZrO2含量0.4%时的5.11MPa。差示扫描量热法(DSC)结果表明随着ZrO2的增加,取向增强,有利于提高拉伸强度。随着ZrO2的增加,Tg和Tc向高温移动,表明ZrO2促进了非均匀成核,形成了完美的晶体结构。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
International Journal of Nanomanufacturing
International Journal of Nanomanufacturing Engineering-Industrial and Manufacturing Engineering
CiteScore
0.60
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