Insight in the degradation of polyquinone-based cathode material in lithium-organic battery under cycling

Ignatova Anna A.; Kozlov Alexey V.; Shestakov Alexander F.; Chernyak Alexander V.; Yarmolenko Olga V.; Troshin Pavel A.

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Insight in the degradation of polyquinone-based cathode material in lithium-organic battery under cycling

机译：循环下锂电电池中聚醌类阴极材料降解的洞察

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Electrochemical lithiation of organic polyquinone-based cathode material can occur irreversibly leading thus to a rapid deterioration of the battery performance. Carefully controlled degree of lithium intercalation within the defined charge/discharge potential window provides a stable battery operation within 170 cycles with 100% coulombic efficiency. DFT calculations revealed that deep lithiation results in a strong conformational reorganization of the polymer domains leading to repeatable expansion and shrinkage of the electroactive material and a rapid loss of the cathode integrity.

机译：电化学锂锂的有机多醌类阴极材料可以发生不可逆地导致，从而可以快速地劣化电池性能。在限定的电荷/放电电位窗口内精心控制的锂嵌入度在170个循环内提供稳定的电池操作，具有100％的库仑效率。 DFT计算显示，深层锂化导致聚合物结构域的强构象重组，导致电活性材料的可重复膨胀和收缩和阴极完整性的快速丧失。

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《Mendeleev Communications 》 |2017年第5期| 共3页
作者
Ignatova Anna A.; Kozlov Alexey V.; Shestakov Alexander F.; Chernyak Alexander V.; Yarmolenko Olga V.; Troshin Pavel A.;
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Russian Acad Sci Inst Problems Chem Phys Chernogolovka 142432 Moscow Region Russia;

Russian Acad Sci Inst Problems Chem Phys Chernogolovka 142432 Moscow Region Russia;

Russian Acad Sci Inst Problems Chem Phys Chernogolovka 142432 Moscow Region Russia;

Russian Acad Sci Inst Problems Chem Phys Chernogolovka 142432 Moscow Region Russia;

Russian Acad Sci Inst Problems Chem Phys Chernogolovka 142432 Moscow Region Russia;

Russian Acad Sci Inst Problems Chem Phys Chernogolovka 142432 Moscow Region Russia;

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正文语种 eng
中图分类化学 ;
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1. Insight in the degradation of polyquinone-based cathode material in lithium-organic battery under cycling [J] . Ignatova Anna A., Kozlov Alexey V., Shestakov Alexander F., Mendeleev Communications . 2017 ,第5期

机译：循环下锂电电池中聚醌类阴极材料降解的洞察
2. Understanding local degradation of cycled Ni-rich cathode materials at high operating temperature for Li-ion batteries [J] . Hwang Sooyeon, Kim Dong Hyun, Chung Kyung Yoon, Applied Physics Letters . 2014 ,第10期

机译：了解锂离子电池在高温下循环富镍正极材料的局部降解
3. Understanding local degradation of cycled Ni-rich cathode materials at high operating temperature for Li-ion batteries [J] . Sooyeon Hwang, Dong Hyun Kim, Kyung Yoon Chung, Applied Physics Letters . 2014 ,第10期

机译：了解锂离子电池在高温下循环富镍正极材料的局部降解
4. Insight into Diffusion Mechanism in Cathode Materials NaVPO_5 and NaVFPO_4 for Sodium Ion Batteries: DFT Investigation [C] . Huu Duc Duc Luong, Van An Dinh, Hiroyoshi Momida, Pacific Rim Meeting on Electrochemical and Solid-State Science . 2020

机译：深度材料中阴极材料中的扩散机制和NavFPO_4的洞察钠离子电池的洞察：DFT调查
5. Process Development in Synthesis and Recycle of Lithium Ion Battery Cathode Material. [D] . Cai, Guoqiang. 2015

机译：锂离子电池正极材料合成与回收的工艺开发。
6. An Efficient Evaluation of F-doped Polyanion Cathode Materials with Long Cycle Life for Na-Ion Batteries Applications [O] . Rasu Muruganantham, Yi-Tang Chiu, Chun-Chuen Yang, -1

机译：氟离子掺杂聚阴离子阴极材料对钠离子电池应用的长循环寿命的高效评估
7. Preparation of Cathode Materials for Lithium Rechargeable Batteries using Transition Metals Recycled from Li(Ni1-x-yCoxMny)O2Secondary Battery Scraps [O] . Jae-Won Lee, Dae Weon Kim, Seong Tae Jang 2014

机译：使用从Li（Ni1-X-Ycoxmny）O2Secondary电池碎片中再生的过渡金属的锂可充电电池的阴极材料的制备

Insight in the degradation of polyquinone-based cathode material in lithium-organic battery under cycling

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