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Ionic Transport in Non-Aqueous Electrolyte Solutions -(i) Experimental Measurements of Conductivity and Viscosity of MgX_2 (X=ClO_4~-, TFSA~-) Dissolved in PC and GBL

机译：非水电解质溶液中的离子转运 - （i）MgX_2（x = ClO_4〜 - ，TFSA〜 - ）导电性和粘度的实验测量（x = ClO_4〜 - ）溶解在PC和GBL中

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Transport phenomena in electrolyte solutions is one of the most interesting topics in the solution chemistry. The mechanism is not fully understood, nonetheless. Furthermore, the physiochemical properties such as conductivity and viscosity are very important to design the electrolyte used in batteries. For the Mg battery, which is attracting much attention from the viewpoint of avoiding rare-element-based material, the electrolyte contains divalent Mg~(2+) ion as the charge carrier. The physiochemical properties of electrolytes for Li battery has been studied well. In this study, in order to elucidate the transport phenomena in the electrolyte solutions containing divalent Mg~(2+) ion, the conductivity and viscosity of the electrolyte were experimentally investigated.

机译：电解质解决方案中的运输现象是溶液化学中最有趣的主题之一。尽管如此，该机制尚不完全明白。此外，诸如电导率和粘度的物理化学性质对于设计电池中使用的电解质非常重要。对于Mg电池，从避免稀有基于基于元素的材料的观点来看，该电池吸引了很多关注，电解质含有二价Mg〜（2+）离子作为电荷载体。研究了Li电池电解质的理化性质。在该研究中，为了阐明含有二价Mg〜（2+）离子的电解质溶液中的传输现象，实验研究了电解质的电导率和粘度。

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《Pacific Rim Meeting on Electrochemical and Solid-State Science》|2020年|3521-3962p|共2页
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Hikaru Sano; Satoshi Uchida; Hiroyuki Ozaki; Tetsu Kiyobayashi;
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中图分类 TQ15-53;
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1. Transport Properties Investigation of Aqueous Protic Ionic Liquid Solutions through Conductivity, Viscosity, and NMR Self-Diffusion Measurements [J] . Johan Jacquemin, Patrice Porion, Meriem Anouti The journal of physical chemistry, B. Condensed matter, materials, surfaces, interfaces & biophysical . 2012,第14期

机译：通过电导率，粘度和NMR自扩散测量研究质子离子液体水溶液的传输性质
2. Comparative study on transport properties for LiFAP and LiPF_6 in alkyl-carbonates as electrolytes through conductivity, viscosity and NMR self-diffusion measurements [J] . Patrice Porion, Yvon Rodrigue Dougassa, Cecile Tessier, Electrochimica Acta . 2013,第Null期

机译：通过电导率，粘度和NMR自扩散测量比较LiFAP和LiPF_6在烷基碳酸酯作为电解质中的传输性质
3. Transport properties in two pyrrolidinium-based protic ionic liquids as determined by conductivity, viscosity and NMR self-diffusion measurements [J] . Anouti M., Porion P., Brigouleix C., Fluid Phase Equilibria . 2010,第2期

机译：通过电导率，粘度和NMR自扩散测量确定的两种吡咯烷鎓质子离子液体中的传输性质
4. Ionic Transport in Non-Aqueous Electrolyte Solutions -(i) Experimental Measurements of Conductivity and Viscosity of MgX_2 (X=ClO_4~-, TFSA~-) Dissolved in PC and GBL [C] . Hikaru Sano, Satoshi Uchida, Hiroyuki Ozaki, Pacific Rim Meeting on Electrochemical and Solid-State Science . 2020

机译：非水电解质溶液中的离子转运 - （i）MgX_2（x = ClO_4〜 - ，TFSA〜 - ）导电性和粘度的实验测量（x = ClO_4〜 - ）溶解在PC和GBL中
5. ION TRANSPORT IN POLYMERIC SOLID ELECTROLYTES: PART I. AN INVESTIGATION OF NEW POLYMERIC SOLID ELECTROLYTES BASED ON POLY(ALKYLENE SULFIDES) AND POLY(1,3-DIOXOLANE). PART II. POTENTIOSTATIC POLARIZATION CELL MEASUREMENTS OF IONIC TRANSFERENCE NUMBERS [D] . CLANCY, SHAUN FRANCIS 1985

机译：聚合物固体电解质中的离子迁移：第一部分。基于聚（亚烷基硫）和聚（1,3-二氧戊环）的新型聚合物固体电解质的研究。第二部分离子传递数的恒电位极化细胞测量
6. Two Laws Governing the Ionization of Strong Electrolytes in Dilute Solutions and a New Rule for Determining Equivalent Conductance at Infinite Dilution Derived from Conductivity Measurements with Extremely Diluted Solutions of Potassium Chlorite [O] . Edward W. Washburn 1917

机译：在稀溶液中强电解质电离的两个定律和无限稀释时确定等效电导的新规则源自用亚氯酸钾极度稀释溶液的电导率测量
7. Effect of Viscosity of Non-Aqueous Electrolytic Solution on Polarographic Wave-Height [O] . Makoto SUZUKI, Toshihiro SHIMIZU 1977

机译：非水电解液粘度对极谱波高的影响

Ionic Transport in Non-Aqueous Electrolyte Solutions -(i) Experimental Measurements of Conductivity and Viscosity of MgX_2 (X=ClO_4~-, TFSA~-) Dissolved in PC and GBL

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