聚氨酯型高分子固体电解质研究进展
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- 英文论文题名:Research Progress of Polyurethane-Based Solid Electrolytes
- 论文作者:雷铎 ; 杜圆圆 ; 周淑君 ; 张舒雅 ; 高敏 ; 陶绪泉
- 英文论文作者:LEI Duo ; DU Yuanyuan ; ZOU Shujun ; ZHANG Shuya ; GAO Min ; TAO Xuquan ; College of Materials Science and Engineering ; Liaocheng University
- 年:2016
- 作者机构:聊城大学材料科学与工程学院;
- 论文关键词:聚氨酯 ; 高分子固体电解质 ; 无规共聚 ; 嵌段共聚 ; 接枝共聚 ; 互穿网络 ; 超支化聚氨酯
- 英文论文关键词:polyurethane ; polymer solid electrolyte ; random copolymerization ; block copolymerization ; graft copolymerization ; interpenetrating polymer network ; hyperbranched polyurethane
- 会议召开时间:2016-07-30
- 会议录名称:中国聚氨酯工业协会第十八次年会论文集
- 语种:中文
- 分类号:O631
- 学会代码:JAZG
- 会议名称:中国聚氨酯工业协会第十八次年会
- 会议地点:中国上海
- 主办单位:中国聚氨酯工业协会
- 学会名称:中国聚氨酯工业协会
- 页数:4
- 文件大小:814k
- 原文格式:D
- 会议级别:全国
摘要
综述了聚氨酯型高分子固体电解质的发展情况,着重介绍了无规和嵌段共聚型、接枝共聚型、互穿网络型、超支化聚氨酯高分子固体电解质的特点、合成方法、性能研究以及发展现状。
This article reviewed the developmental situation of the polyurethane polymer solid electrolyte,and emphatically introduced the characteristics,synthetic methods,performance research and developmental status of the random copolymer,block copolymer,graft copolymer,interpenetrating polymer network and hyperbranched polyurethane polymer solid electrolyte.
This article reviewed the developmental situation of the polyurethane polymer solid electrolyte,and emphatically introduced the characteristics,synthetic methods,performance research and developmental status of the random copolymer,block copolymer,graft copolymer,interpenetrating polymer network and hyperbranched polyurethane polymer solid electrolyte.
引文
[1]SHIBATA M,KOBAYASHI T.Polymer electrolytesbased on blends of poly(ether urethane)and polysiloxanes[J].European Polymer Journal,2000,36(3):485-490.
[2]ZHANG Z C,FANG S B.Novelnetwork polymer electrolytes based on poly siloxane with internal plasticizer[J].Electrochimica Acta,2000(45):2131-2138.
[3]KUO PL,LIANGW J,LIN CL.Solid polymer electrolytes,2 preparation and Ionic conductivity of solid polymer electrolytes based onsegmented polysiloxane-modified polyurethane[J].Macromol Chem Phys,2002(203):230-237.
[4]朱卫华,杨兵,王新灵,等.硬段模型化合物对聚氨酯型固体电解质的影响[J].高分子材料科学与工程,2003,19(2):176-179.
[5]KUO H H,CHEN W C,WEN T C.A novel composite gelpolymerelec-trolytefor rechargeable lithium batteries[J].Journal of Power Sources,2002(110):27-33.
[6]DIGARM L,HUANG S L,WEN T C.Studies on cross-linked polyurethane acrylate-based electrolyte consisting of reactive viny-1 divinyldiluents[J].Polymer,2002(43):1615-1622.
[7]Jiang G X,Maeda S J,Tetsuo S K.Allsolid-statelithium-polymerbatteryusingpoly(urethaneacrylate)/nano-SiO_2compositeelectrolytes[J].JournalofPowerSources,2005(141):143-148
[8]钱婷,谢晖,黄莉,等.超支化聚氨酯丙烯酸酯的合成及其固化膜性能[J].热固性树脂,2012,27(5):31-35.
[9]ANILA A,SHI Wenfang,SHEN Xiaofeng,etal,Physical and thermal properties of UV curable waterborne polyurethane dispersions incorporating hyperbranched aliphatic polyester of varying generation number[J].Polymer,2005,46(24):11066-11078.
[10]曹琪.超支化聚氨酯储能和形状记忆材料的研究[D].湘潭:湘潭大学,2006.
[11]王绍荣.水性紫外光固化超支化聚氨酯的合成[D].青岛:青岛科技大学,2010.
[12]吴彬,罗运军.超支化聚氨酯与线型聚氨酯共混物相容性及力学性能分子模拟[J].高分子材料科学与工程,2010,18(6):52-56.
[13]吴彬,罗运军,张政委.超支化聚氨酯的现状及发展动态[J].化学进展,2009,28(3):419-420.
[14]柳宇航,孙宁,童真.超支化聚氨酯的研究进展[J].聚氨酯工业,2010,25(5):5-6.
[15]THIYAGARAJAN SA,SULTAN N.Novel hyperbranched poly(aryletherurethane)s using AB2-type blocked isocyanate monomers and copclymerization with AB-type monomers[J].Macromolecular Chemistry and Physics,2008,209(6):651-665.
[16]洪玲,唐小真,王新灵.超支化聚氨酯固体电解质导电性能的光谱学研究[J].高分子学报,2002(6):775-779.
[17]白莹,潘春花,吴锋,等.用于锂离子电池的新型超支化聚醚-聚氨酯聚合物固体电解质[J].高等学校化学学报,2007,28(9):1796-1800.
[2]ZHANG Z C,FANG S B.Novelnetwork polymer electrolytes based on poly siloxane with internal plasticizer[J].Electrochimica Acta,2000(45):2131-2138.
[3]KUO PL,LIANGW J,LIN CL.Solid polymer electrolytes,2 preparation and Ionic conductivity of solid polymer electrolytes based onsegmented polysiloxane-modified polyurethane[J].Macromol Chem Phys,2002(203):230-237.
[4]朱卫华,杨兵,王新灵,等.硬段模型化合物对聚氨酯型固体电解质的影响[J].高分子材料科学与工程,2003,19(2):176-179.
[5]KUO H H,CHEN W C,WEN T C.A novel composite gelpolymerelec-trolytefor rechargeable lithium batteries[J].Journal of Power Sources,2002(110):27-33.
[6]DIGARM L,HUANG S L,WEN T C.Studies on cross-linked polyurethane acrylate-based electrolyte consisting of reactive viny-1 divinyldiluents[J].Polymer,2002(43):1615-1622.
[7]Jiang G X,Maeda S J,Tetsuo S K.Allsolid-statelithium-polymerbatteryusingpoly(urethaneacrylate)/nano-SiO_2compositeelectrolytes[J].JournalofPowerSources,2005(141):143-148
[8]钱婷,谢晖,黄莉,等.超支化聚氨酯丙烯酸酯的合成及其固化膜性能[J].热固性树脂,2012,27(5):31-35.
[9]ANILA A,SHI Wenfang,SHEN Xiaofeng,etal,Physical and thermal properties of UV curable waterborne polyurethane dispersions incorporating hyperbranched aliphatic polyester of varying generation number[J].Polymer,2005,46(24):11066-11078.
[10]曹琪.超支化聚氨酯储能和形状记忆材料的研究[D].湘潭:湘潭大学,2006.
[11]王绍荣.水性紫外光固化超支化聚氨酯的合成[D].青岛:青岛科技大学,2010.
[12]吴彬,罗运军.超支化聚氨酯与线型聚氨酯共混物相容性及力学性能分子模拟[J].高分子材料科学与工程,2010,18(6):52-56.
[13]吴彬,罗运军,张政委.超支化聚氨酯的现状及发展动态[J].化学进展,2009,28(3):419-420.
[14]柳宇航,孙宁,童真.超支化聚氨酯的研究进展[J].聚氨酯工业,2010,25(5):5-6.
[15]THIYAGARAJAN SA,SULTAN N.Novel hyperbranched poly(aryletherurethane)s using AB2-type blocked isocyanate monomers and copclymerization with AB-type monomers[J].Macromolecular Chemistry and Physics,2008,209(6):651-665.
[16]洪玲,唐小真,王新灵.超支化聚氨酯固体电解质导电性能的光谱学研究[J].高分子学报,2002(6):775-779.
[17]白莹,潘春花,吴锋,等.用于锂离子电池的新型超支化聚醚-聚氨酯聚合物固体电解质[J].高等学校化学学报,2007,28(9):1796-1800.