电源技术
電源技術
전원기술
CHINESE JOURNAL OF POWER SOURCES
2014年
12期
2231-2234,2238
,共5页
漆东岳%刘延波%马营%肖友华%宋国文
漆東嶽%劉延波%馬營%肖友華%宋國文
칠동악%류연파%마영%초우화%송국문
增强静电纺膜%PAN-PVDF%混合静电纺%点粘结%锂离子电池隔膜
增彊靜電紡膜%PAN-PVDF%混閤靜電紡%點粘結%鋰離子電池隔膜
증강정전방막%PAN-PVDF%혼합정전방%점점결%리리자전지격막
Enhanced electrospun membrane%PAN-PVDF%Blending eletrospun%Point bonding%Li-ion battery separator
静电纺丝纳米纤维膜作为锂离子电池隔膜使用时具有优良的性能,但是由于纤维间抱合力较小,强度较低,其应用受到了极大限制。通过耐高温相PAN与低熔点相PVDF两种聚合物混纺,并经过适当的热压后处理,使PVDF部分熔融形成点粘结,制备PAN-PVDF复合纳米纤维膜,并测试其相关性能。发现在保留静电纺膜优良性能的前提下,其强度相对处理前提高了近10倍,并表现出良好的电化学性能:室温下离子电导率达到1.32×10-3 S/cm,聚合物电解质分解电压高达5.24 V,界面阻抗仅为45Ω,0.2首次放电比容量高达152 mAh/g,综合性能远优于美国CELGARD2400。
靜電紡絲納米纖維膜作為鋰離子電池隔膜使用時具有優良的性能,但是由于纖維間抱閤力較小,彊度較低,其應用受到瞭極大限製。通過耐高溫相PAN與低鎔點相PVDF兩種聚閤物混紡,併經過適噹的熱壓後處理,使PVDF部分鎔融形成點粘結,製備PAN-PVDF複閤納米纖維膜,併測試其相關性能。髮現在保留靜電紡膜優良性能的前提下,其彊度相對處理前提高瞭近10倍,併錶現齣良好的電化學性能:室溫下離子電導率達到1.32×10-3 S/cm,聚閤物電解質分解電壓高達5.24 V,界麵阻抗僅為45Ω,0.2首次放電比容量高達152 mAh/g,綜閤性能遠優于美國CELGARD2400。
정전방사납미섬유막작위리리자전지격막사용시구유우량적성능,단시유우섬유간포합력교소,강도교저,기응용수도료겁대한제。통과내고온상PAN여저용점상PVDF량충취합물혼방,병경과괄당적열압후처리,사PVDF부분용융형성점점결,제비PAN-PVDF복합납미섬유막,병측시기상관성능。발현재보류정전방막우량성능적전제하,기강도상대처리전제고료근10배,병표현출량호적전화학성능:실온하리자전도솔체도1.32×10-3 S/cm,취합물전해질분해전압고체5.24 V,계면조항부위45Ω,0.2수차방전비용량고체152 mAh/g,종합성능원우우미국CELGARD2400。
The electrospun nanofiber membrane had excel ent performance when used as separator of Li-ion battery. Its applications were limited due to the low cohesive force between single nanofibers and the low strength of the electrospun membrane. The PAN-PVDF electrospun membrane was prepared by blended electrospinning with thermostable phase PAN and low melting temperature phase PVDF. PVDF was melted partial y to form point bonding after proper thermal calendering process and its relevant properties were measured. The results show that the strength of the modified membrane is almost 10 times higher than that of as-spun electrospun membrane. The improvements in electrochemical properties of the electrospun samples were also observed in this study such as, (1) ionic conductivity at room temperature was 1.32 ×10-3 S/cm; (2) electrochemical stability potential was 5.24 V; (3) interface impedance between the membrane andthe electrodes was 45Ω; and (4) the initial discharge capacity was 152 mAh/g under 0.2 C ratio. Therefore, the comprehensive properties of the modified membrane were superior to that of CELGARD 2400.