Lithium-Ion Conductivity of Polymers Based on Sulfonated Polystyrene and Polymethylpentene Intercalated by Organic Solvents

D. Yu. Voropaeva; D. V. Golubenko; S. A. Novikova; A. B. Yaroslavtsev

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Lithium-Ion Conductivity of Polymers Based on Sulfonated Polystyrene and Polymethylpentene Intercalated by Organic Solvents

机译：基于磺化聚苯乙烯和通过有机溶剂插入聚甲基烯酮的聚合物锂离子电导率

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Ion-exchange membranes based on polymethylpentene and sulfonated polystyrene with different grafting degrees were obtained. Solvation and mobility of lithium ions depending on the composition of initial organic solvents were studied. The highest ionic conductivity at room temperature (30°C) are obtained for the membranes containing dimethylsulfoxide (σ = 1.31 × 10_(–4)S/cm for membrane with GD = 78%). Membranes containing dimethylformamide are characterized by a constant phase composition in a broad temperature range and the highest ionic conductivity at low temperature (σ = 9 × 10_(–6)S/cm at–20°C for a polymer with GD = 78%).

机译：得到基于聚甲基戊烯和磺化聚苯乙烯的离子交换膜，具有不同接枝度。研究了根据初始有机溶剂组成的锂离子的溶剂化和迁移率。获得室温（30℃）的最高离子电导率，用于含有二甲基磺砜的膜（σ= 1.31×10 _（ - 4）S / cm，用于Gd = 78％）。含有二甲基甲酰胺的膜的表征在宽温度范围内的恒定相组合物，低温下的最高离子电导率（σ= 9×10 _（ - 6）S / cm在-20℃下，用于GD = 78％）。

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《Nanotechnologies in Russia》 |2018年第6期|共5页
作者
D. Yu. Voropaeva; D. V. Golubenko; S. A. Novikova; A. B. Yaroslavtsev;
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作者单位

Kurnakov Institute of General and Inorganic Chemistry Russian Academy of Sciences;

Kurnakov Institute of General and Inorganic Chemistry Russian Academy of Sciences;

Kurnakov Institute of General and Inorganic Chemistry Russian Academy of Sciences;

Kurnakov Institute of General and Inorganic Chemistry Russian Academy of Sciences;

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1. Lithium-Ion Conductivity of Polymers Based on Sulfonated Polystyrene and Polymethylpentene Intercalated by Organic Solvents [J] . D. Yu. Voropaeva, D. V. Golubenko, S. A. Novikova, Nanotechnologies in Russia . 2018,第5a6期

机译：基于磺化聚苯乙烯和通过有机溶剂插入聚甲基烯酮的聚合物锂离子电导率
2. Proton conductivity and performance in fuel cells of grafted membranes based on polymethylpentene with radiation-grafted crosslinked sulfonated polystyrene [J] . Golubenko D. V., Gerasimova E. V., Yaroslavtsev A. B. International journal of hydrogen energy . 2021,第32期

机译：基于聚甲基戊烯与辐射接枝交联磺化聚苯乙烯的包层膜燃料电池质子电导率和性能
3. Conductivity and solvent uptake of proton exchange membrane based on polystyrene(ethylene-butylene) polystyrene triblock polymer [J] . Sangeetha D European Polymer Journal . 2005,第11期

机译：基于聚苯乙烯（乙烯-丁烯）聚苯乙烯三嵌段聚合物的质子交换膜的电导率和溶剂吸收
4. MELT INTERCALATION/EXFOLIATION OF POLYSTYRENE - SODIUM MONTMORILLONITE NANOCOMPOSITES USING SULFONATED POLYSTYRENE IONOMER COMPATIBILIZERS [C] . R. A. Weiss, Nikhil Bhiwankar Society of Plastics Engineers(SPE) Annual Technical Conference; 20070506-11; Cincinnati,OH(US) . 2007

机译：磺化聚苯乙烯离子增容剂对聚苯乙烯-蒙脱土钠纳米复合材料的熔融嵌入/剥离。
5. Controlling the Morphology and Conductivity of Organic Electronic Devices Through Sequential Processing: Use of Solvent Additives as Polymer Swelling Agents and Evaporated F4TCNQ as a Polymer Dopant [D] . Fontana, Matthew Thomas. 2018

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6. Intercalated Poly (2-acrylamido-2-methyl-1-propanesulfonic Acid) into Sulfonated Poly (14-phenylene ether-ether-sulfone) Based Proton Exchange Membrane: Improved Ionic Conductivity [O] . Murli Manohar, Prem P. Sharma, Dukjoon Kim 2021

机译：嵌入聚（2-丙基酰胺-2-甲基-1-丙二磺酸）磺化聚（14-亚苯基醚 - 砜）的质子交换膜：改善离子电导率
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Lithium-Ion Conductivity of Polymers Based on Sulfonated Polystyrene and Polymethylpentene Intercalated by Organic Solvents

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