Multifunctional Cyclic Carbonates Comprising Hyperbranched Polyacetals: Synthesis and Applications to Polymer Electrolytes and Networked Polymer Materials

Matsukizono Hiroyuki; Matsumoto Kozo; Endo Takeshi

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Multifunctional Cyclic Carbonates Comprising Hyperbranched Polyacetals: Synthesis and Applications to Polymer Electrolytes and Networked Polymer Materials

机译：包含超支化聚缩醛的多官能循环碳酸盐：合成和应用于聚合物电解质和网络聚合物材料

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Hyperbranched polyacetals (HBPAs) bearing cyclic carbonate (CC) terminals were synthesized from protocatechuric aldehydes bearing bifunctional trimethylolpropane (TMP) or glycerol (Gly) structures and then utilized to design polymer electrolytes and networked polymer materials. Since TMP-based cyclic acetals (CAs) are thermodynamically more stable than Gly-derived CSs, the copolymerization of these monomers favors to form HBPAs comprising TMP-based acetal stems and Gly terminals. Consequently, HBPAs composed of larger amounts of TMP or Gly terminals were separately synthesized by changing monomer feed ratios. Their diol terminals react efficiently with diphenyl carbonate to give HBPAs bearing 5- or 6-membered CC (5-CC or 6-CC) terminals. HBPAs bearing 5-CC terminals were mixed homogeneously with lithium bis(trifluoromethanesulfonyl)imide to form uniform films showing lithium ion conductivity ranging from 8.2 x 10(-9) to 2.1 x 10(-3) S cm(-1) at 23-80 degrees C, whereas networked polycarbonate and polyhydroxyurethane films were successfully fabricated using HBPAs having CC terminals. These results apparently indicate that HBPAs having CC terminals are useful scaffolds to design functional polymer materials. (c) 2019 Wiley Periodicals, Inc. J. Polym. Sci., Part A: Polym. Chem. 2019

机译：从轴承双官能三羟甲基丙烷（TMP）或甘油（GLY）结构的ProtocateChuric醛合成轴承环碳酸酯（CC）末端，然后用于设计聚合物电解质和网络聚合物材料。由于基于TMP的循环缩醛（CAS）比甘氨酸的CSS热力学稳定，因此这些单体的共聚合是形成包含基于TMP的缩醛茎和GLY端子的HBPA。因此，通过改变单体饲料比单独合成由大量TMP或GLY末端组成的HBPA。它们的二醇末端用二苯基酯有效反应，得到HBPA轴承5-或6-元CC（5-CC或6-CC）末端。 HBPAS轴承5-CC端子与双锂（三氟甲磺酰基）酰亚胺均匀混合，形成均匀的薄膜，其锂离子传导率在23--中的8.2×10（-9）至2.1×10（-3）Scm（-1）范围内。使用具有CC末端的HBPA成功制造了80℃，而网络聚碳酸酯和多羟基尿嘧啶膜成功制造。这些结果显然表明具有CC端子的HBPA是设计功能性聚合物材料的有用支架。（c）2019 Wiley期刊，Inc.J.Colom。 SCI。，A部分：polym。化学。 2019年

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《Journal of Polymer Science, Part A. Polymer Chemistry》 |2019年第23期|共9页
作者
Matsukizono Hiroyuki; Matsumoto Kozo; Endo Takeshi;
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作者单位

Kyushu Inst Technol Mol Engn Inst 1 Sensuicho Kitakyushu Fukuoka 8048550 Japan;

Kindai Univ Dept Biol &

Environm Chem 11-6 Kayanomori Iizuka Fukuoka 8208555 Japan;

Kyushu Inst Technol Mol Engn Inst 1 Sensuicho Kitakyushu Fukuoka 8048550 Japan;

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正文语种 eng
中图分类有机化学;
关键词
hyperbranched; multifunctional cyclic carbonates; polyacetals; polycarbonates; polyhydroxyurethanes; networks;

机译：超支化;多官能循环碳酸盐;聚缩醛;聚碳酸酯;聚羟基脲;网络;

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1. Multifunctional Cyclic Carbonates Comprising Hyperbranched Polyacetals: Synthesis and Applications to Polymer Electrolytes and Networked Polymer Materials [J] . Matsukizono Hiroyuki, Matsumoto Kozo, Endo Takeshi Journal of Polymer Science, Part A. Polymer Chemistry . 2019,第23期

机译：包含超支化聚缩醛的多官能循环碳酸盐：合成和应用于聚合物电解质和网络聚合物材料
2. Gel polymer electrolyte for lithium-ion batteries comprising cyclic carbonate moieties [J] . S.D. Tillmann, P. Isken, A. Lex-Balducci Journal of power sources . 2014,第deca20期

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Multifunctional Cyclic Carbonates Comprising Hyperbranched Polyacetals: Synthesis and Applications to Polymer Electrolytes and Networked Polymer Materials

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