Fluorinated Alkoxide-Based Magnesium-Ion Battery Electrolytes that Demonstrate Li-Ion-Battery-Like High Anodic Stability and Solution Conductivity

Crowe Adam J.; Stringham Kyle K.; Bartlett Bart M.

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Fluorinated Alkoxide-Based Magnesium-Ion Battery Electrolytes that Demonstrate Li-Ion-Battery-Like High Anodic Stability and Solution Conductivity

机译：氟化醇基镁离子电池电解质，可证明像锂离子电池一样具有高阳极稳定性和溶液电导率

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Based on DFT predictions, a series of highly soluble fluorinated alkoxide-based electrolytes were prepared, examined electrochemically, and reversibly cycled. The alcohols react with ethylmagnesium chloride to generate a fluoroalkoxy-magnesium chloride intermediate, which subsequently reacts with aluminum chloride to generate the electrolyte. Solutions starting from a 1,1,1,3,3,3-hexafluoro-2-methylpropan-2-ol precursor exhibit high anodic stability, 3.2 V vs Mg2+/0, and a record 3.5 mS/cm solution conductivity. Excellent galvanostatic cycling and capacity retention (94%) is observed with more than 300 h of cycle time while employing the standard Chevrel phase-Mo6S8 cathode material.

机译：基于DFT的预测，制备了一系列高度可溶的氟化醇盐基电解质，并进行了电化学检查和可逆循环。所述醇与乙基氯化镁反应生成氟代烷氧基-氯化镁中间体，其随后与氯化铝反应生成电解质。从1,1,1,3,3,3-六氟-2-甲基丙烷-2-醇前体开始的溶液显示出较高的阳极稳定性，相对于Mg2 + / 0为3.2 V，并且溶液电导率达到创纪录的3.5 mS / cm。使用标准的Chevrel相Mo6S8阴极材料时，在超过300小时的循环时间中，观察到了优异的恒电流循环和容量保持率（94％）。

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《ACS applied materials & interfaces》 |2016年第35期|共6页
作者
Crowe Adam J.; Stringham Kyle K.; Bartlett Bart M.;
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magnesium battery; rechargeable battery; electrolyte; non-Grignard; solution conductivity;

机译：镁电池;充电电池;电解液;非格利雅纳;溶液电导率;
入库时间 2022-08-19 12:27:40

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1. Fluorinated Alkoxide-Based Magnesium-Ion Battery Electrolytes that Demonstrate Li-Ion-Battery-Like High Anodic Stability and Solution Conductivity [J] . Crowe Adam J., Stringham Kyle K., Bartlett Bart M. ACS applied materials & interfaces . 2016,第35期

机译：氟化醇基镁离子电池电解质，可证明像锂离子电池一样具有高阳极稳定性和溶液电导率
2. Novel, electrolyte solutions comprising fully inorganic salts with high anodic stability for rechargeable magnesium batteries [J] . Robert E. Doe, Ruoban Han, Jaehee Hwang, Chemical Communications . 2014,第2期

机译：用于可充电镁电池的新型电解质溶液，包含具有高阳极稳定性的完全无机盐
3. Atomic layer deposited zinc oxysulfide anodes in Li-ion batteries: an efficient solution for electrochemical instability and low conductivity [J] . Sinha Soumyadeep, Ramasamy Hari Vignesh, Nandi Dip K., Journal of Materials Chemistry, A. Materials for energy and sustainability . 2018,第34期

机译：原子层沉积锂离子电池中的氧化锌阳极阳极：用于电化学不稳定性和低导电性的有效溶液
4. LEWIS ACID-FREE AND HIGH ANODICALLY STABLE ELECTROLYTES FOR NON-AQUEOUS RECHARGEABLE MAGNESIUM-ION BATTERIES [C] . Baofei Pan, Anthony K. Burrell, Zhengcheng Zhang ACS National Meeting Exhibition . 2015

机译：用于非水性可充电镁离子电池的路易斯无酸和高阳极稳定电解质
5. Alkoxide-Based Electrolytes for Magnesium-Ion Batteries. [D] . Herb, Jake Tompkins. 2017

机译：镁离子电池的基于醇的电解质。
6. Ionic Conductivity and Cycling Stability Improvement of PVDF/Nano-Clay Using PVP as Polymer Electrolyte Membranes for LiFePO4 Batteries [O] . Endah R. Dyartanti, Agus Purwanto, I. Nyoman Widiasa, 2018

机译：使用PVP作为LiFePO4电池的聚合物电解质膜的PVDF /纳米粘土的离子电导率和循环稳定性的改善
7. Fluorinated Alkoxide-Based Magnesium-Ion Battery Electrolytes that Demonstrate Li-Ion-Battery-Like High Anodic Stability and Solution Conductivity [O] . -1

机译：基于氟化的烷氧基氧化物基离子电池电解质，其证明锂离子电池状高阳极稳定性和溶液电导率

Fluorinated Alkoxide-Based Magnesium-Ion Battery Electrolytes that Demonstrate Li-Ion-Battery-Like High Anodic Stability and Solution Conductivity

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