Polymerized Ionic Liquids: Correlation of Ionic Conductivity with Nanoscale Morphology and Counterion Volume

Ciprian Iacob; Atsushi Matsumoto; Marissa Brennan; Hongjun Liu; Stephen J. Paddison; Osamu Urakawa; Tadashi Inoue; Joshua Sangoro; James Runt

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Polymerized Ionic Liquids: Correlation of Ionic Conductivity with Nanoscale Morphology and Counterion Volume

机译：聚合离子液体：离子电导率与纳米级形态和抗衡压积的相关性

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The impact of the chemical structure on ion transport, nanoscale morphology, and dynamics in polymerized imidazolium-based ionic liquids is investigated by broadband dielectric spectroscopy and X-ray scattering, complemented with atomistic molecular dynamics simulations. Anion volume is found to correlate strongly with T_g-independent ionic conductivities spanning more than 3 orders of magnitude. In addition, a systematic increase in alkyl side chain length results in about one decade decrease in T_g-independent ionic conductivity correlating with an increase in the characteristic backbone-to-backbone distances found from scattering and simulations. The quantitative comparison between ion sizes, morphology, and ionic conductivity underscores the need for polymerized ionic liquids with small counterions and short alkyl side chain length in order to obtain polymer electrolytes with higher ionic conductivity.]]>

机译：通过宽带介电光谱和X射线散射研究了聚合咪唑鎓离子液体中的离子传输，纳米级形态和动力学的影响，X射线散射，互相研究分子动力学模拟。发现阴离子的体积与跨越3个幅度超过3个级的跨越超过3个阶数的延伸的血管体积强烈地相关。此外，烷基侧链长度的系统增加导致 T <亚k / sub> - 依赖性离子导电性的约1多年减少，与特征骨架到骨架的增加相关散射和模拟中发现的距离。离子尺寸，形态和离子电导率之间的定量比较强调了具有小抗衡离子和短烷基侧链长度的聚合离子液体的需要，以获得具有更高离子电导率的聚合物电解质。]>

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《ACS Macro Letters 》 |2017年第9期| 共6页
作者
Ciprian Iacob; Atsushi Matsumoto; Marissa Brennan; Hongjun Liu; Stephen J. Paddison; Osamu Urakawa; Tadashi Inoue; Joshua Sangoro; James Runt;
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Department of Materials Science and Engineering The Pennsylvania State University University Park Pennsylvania 16802 United States;

Department of Macromolecular Science Osaka University Toyonaka Osaka 560-0043 Japan;

Department of Materials Science and Engineering The Pennsylvania State University University Park Pennsylvania 16802 United States;

Department of Chemical and Biomolecular Engineering University of Tennessee Knoxville Tennessee 37996 United States;

Department of Chemical and Biomolecular Engineering University of Tennessee Knoxville Tennessee 37996 United States;

Department of Macromolecular Science Osaka University Toyonaka Osaka 560-0043 Japan;

Department of Macromolecular Science Osaka University Toyonaka Osaka 560-0043 Japan;

Department of Chemical and Biomolecular Engineering University of Tennessee Knoxville Tennessee 37996 United States;

Department of Materials Science and Engineering The Pennsylvania State University University Park Pennsylvania 16802 United States;

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1. Polymerized Ionic Liquids: Correlation of Ionic Conductivity with Nanoscale Morphology and Counterion Volume [J] . Ciprian Iacob, Atsushi Matsumoto, Marissa Brennan, ACS Macro Letters . 2017 ,第9期

机译：聚合离子液体：离子电导率与纳米级形态和抗衡压积的相关性
2. Influence of Counterion Structure on Conductivity of Polymerized Ionic Liquids [J] . Keith Jordan R., Rebello Nathan J., Cowen Benjamin J., ACS Macro Letters . 2019 ,第4期

机译：抗衡离子结构对聚合离子液体电导率的影响
3. Increased conductivity of polymerized ionic liquids through the use of a nonpolymerizable ionic liquid additive [J] . Kaija Pohako-Esko, Martin Timusk, Kristjan Saal, Journal of Materials Research . 2013 ,第22期

机译：通过使用不可聚合的离子液体添加剂提高聚合的离子液体的电导率
4. Molecular Structure and Morphology Influence Ionic Conductivity in Polymerized Ionic Liquid Homopolymers and Block Copolymers [C] . Ryan L. Weber, Yuesheng Ye, Yossef A. Elabd PMSE Symposia . 2011

机译：分子结构和形态影响聚合离子液体均聚物和嵌段共聚物中的离子电导率
5. Morphology and ionic conductivity of polymerized ionic liquids [D] . Salas-de la Cruz, David 2011

机译：聚合离子液体的形貌和离子电导率
6. The Impact of Composition and Morphology on Ionic Conductivity of Silk/Cellulose Bio-Composites Fabricated from Ionic Liquid and Varying Percentages of Coagulation Agents [O] . Bailey Blessing, Cory Trout, Abneris Morales, 2020

机译：组成和形态对离子液体制备的丝/纤维素生物复合材料离子电导率的影响以及不同浓度的混凝剂
7. Synthesis and Evaluation of Cellulose-Based, 1,2,3-Triazolium-Functionalized Polymerized Ionic Liquids: Thermal Transitions, Ionic Conductivities and Morphological Properties [O] . -1

机译：基于纤维素的1,2,3-三唑官能化聚合离子液体的合成与评价：热转变，离子导电性和形态学性质
8. Ionic Liquids as a Medium for Ionic Chain Polymerizations: An Environmentally Responsible Approach to Macromolecular Synthesis with Controlled Architecture [R] . Gross, S. 2004

机译：离子液体作为离子链聚合的介质：对受控结构的大分子合成具有环境责任感的方法

Polymerized Ionic Liquids: Correlation of Ionic Conductivity with Nanoscale Morphology and Counterion Volume

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