NOVEL POLYMER ELECTROLYTE BASED ON POLY(VINYLIDENE FLUORIDE) AND POLY(4-VINYL PYRIDINE) HAVING A NANO-CHANNEL FOR ION TRANSPORTATION

机译：基于聚偏二氟乙烯和聚（4-乙烯基吡啶）的纳米通道的离子传输新型高分子电解质

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The micro-porous polymer electrolytes membranes(PEMs), notably electro-spun fiber mats, have been suggested to give an improved ionic conductivity. However, the mat-type PEMs have a poor mechanical and dimensional stability because of their inevitable porous nature. In this study, we suggest a new PEM system based on poly(vinylidene fluoride)(PVdF) mats, which can overwhelm such shortcomings of the porous mats by introducing another component, poly(4-vinyl pyridine)(P4VP), into the mats. The tensile strength of PVdF/P4VP membrane was considerably improved compared with that of pristine PVdF membrane under dry and wet conditions. The ionic conductivity was also improved by about 10 times than that of PVdF mat. A micro- to nano-size gap was formed at the interfaces between PVdF nanofiber and P4VP, and this may act as a channel for fast ion transportation under wet condition.

机译：已经提出，微孔聚合物电解质膜（PEM），特别是电纺纤维垫，具有改善的离子电导率。然而，垫型PEM由于其不可避免的多孔性而具有较差的机械和尺寸稳定性。在这项研究中，我们建议一种基于聚偏二氟乙烯（PVdF）垫的新型PEM系统，该系统可以通过在垫中引入另一种成分聚（4-乙烯基吡啶）（P4VP）来克服多孔垫的这种缺点。。在干燥和湿润条件下，与原始PVdF膜相比，PVdF / P4VP膜的拉伸强度有了显着提高。离子电导率也比PVdF垫提高了约10倍。在PVdF纳米纤维和P4VP之间的界面处形成了微米级至纳米级的间隙，这可能充当湿态条件下快速离子传输的通道。

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《第五届先进材料与加工国际会议(Fifth International Conference on Advanced Materials and Processing ICAMP-5)论文集》|2009年|1313-1318|共6页
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SEUNG HYUN OH; SEONG LAK RANG; KWANG-UN JEONG; CHANGWOON NAH; BAIK-HWAN CHO;
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PEM; PVdF; P4VP; ionic conductivity; nanofiber; mat; ion;

机译：PEM; PVdF; P4VP;离子电导率;纳米纤维;纤维;离子;
入库时间 2022-08-26 14:59:24

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NOVEL POLYMER ELECTROLYTE BASED ON POLY(VINYLIDENE FLUORIDE) AND POLY(4-VINYL PYRIDINE) HAVING A NANO-CHANNEL FOR ION TRANSPORTATION

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