功能材料
功能材料
공능재료
JOURNAL OF FUNCTIONAL MATERIALS
2015年
15期
15080-15083
,共4页
张忠厚%马攀龙%吴诗德%韩琳
張忠厚%馬攀龍%吳詩德%韓琳
장충후%마반룡%오시덕%한림
聚丙烯腈%凝胶聚合物电解质%交联%高强度%原位聚合
聚丙烯腈%凝膠聚閤物電解質%交聯%高彊度%原位聚閤
취병희정%응효취합물전해질%교련%고강도%원위취합
polyacrylonitrile(PAN)%gel polymer electrolyte(GPE)%crosslink%high strength%in-situ polymerization
通过原位聚合方法制备化学交联型聚丙烯腈基凝胶聚合物电解质(PAN-GPE)薄膜,利用红外光谱仪、万能试验机、电化学工作站和综合热分析仪分别对其分子结构、拉伸强度、离子导电率和热性能进行表征,探究二乙烯基苯(DVB)、乙二醇二甲基丙烯酸酯(EGDMA)和聚乙二醇二甲基丙烯酸酯(PEGDMA)3种交联剂对 GPE 膜性能的影响.研究表明,3种交联剂均可以明显提高 GPE 膜的拉伸强度,EGDMA 的增强效果最佳,其使用量为聚合单体质量的2.5%时, PAN-GPE 膜的拉伸强度由0.26 MPa 增强到了5.87 MPa,提高了21.6倍;在实验范围内,3种交联剂对 GPE 膜的离子导电率影响不大.
通過原位聚閤方法製備化學交聯型聚丙烯腈基凝膠聚閤物電解質(PAN-GPE)薄膜,利用紅外光譜儀、萬能試驗機、電化學工作站和綜閤熱分析儀分彆對其分子結構、拉伸彊度、離子導電率和熱性能進行錶徵,探究二乙烯基苯(DVB)、乙二醇二甲基丙烯痠酯(EGDMA)和聚乙二醇二甲基丙烯痠酯(PEGDMA)3種交聯劑對 GPE 膜性能的影響.研究錶明,3種交聯劑均可以明顯提高 GPE 膜的拉伸彊度,EGDMA 的增彊效果最佳,其使用量為聚閤單體質量的2.5%時, PAN-GPE 膜的拉伸彊度由0.26 MPa 增彊到瞭5.87 MPa,提高瞭21.6倍;在實驗範圍內,3種交聯劑對 GPE 膜的離子導電率影響不大.
통과원위취합방법제비화학교련형취병희정기응효취합물전해질(PAN-GPE)박막,이용홍외광보의、만능시험궤、전화학공작참화종합열분석의분별대기분자결구、랍신강도、리자도전솔화열성능진행표정,탐구이을희기분(DVB)、을이순이갑기병희산지(EGDMA)화취을이순이갑기병희산지(PEGDMA)3충교련제대 GPE 막성능적영향.연구표명,3충교련제균가이명현제고 GPE 막적랍신강도,EGDMA 적증강효과최가,기사용량위취합단체질량적2.5%시, PAN-GPE 막적랍신강도유0.26 MPa 증강도료5.87 MPa,제고료21.6배;재실험범위내,3충교련제대 GPE 막적리자도전솔영향불대.
The chemical crosslinked polyacrylonitrile based gel polymer electrolyte (PAN-GPE)membranes were prepared by in-situ polymerization.The molecular structure,tensile strength,ionic conductivity and ther-mal properties of PAN-GPE membranes were detected with the infrared spectrometer,universal testing ma-chine,electrochemical workstation and integrated thermal analyzer.The influence of divinyl benzene (DVB), ethylene glycol dimethacrylate (EGDMA)and polyethylene glycol dimethacrylate (PEGDMA)to PAN-GPE membranes were investigated.The results indicate that the crosslinkers can significantly improve the tensile strength.EGDMA is the most efficient to improve the tensile strength.The tensile strength of GPE membrane is improved from 0.26 to 5.87 MPa by adding EGDMA 2.5% (mass of monomers).In the experimental content, the crosslinkers have little effect on ionic conductivity of GPE membranes.
