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Nature of Insulating-Phase Transition and Degradation of Structure and Electrochemical Reactivity in an Olivine-Structured Material, LiFePO4

机译：橄榄石结构材料LiFePO4的绝缘相转变和结构降解性质以及电化学反应性

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Synthesis time using microwave irradiation was varied to elucidate the electrochemical degradation mechanism of LiFePO4 related to the evolution of Fe2P. When the amount of Fe2P was above a critical level, LiFePO4 tended to change into an insulating phase, Li4P2O7. The correlation between structural analysis and electrochemical analysis attributed the initial degradation of LiFePO4 to the low electronic conductivity of Li4P2O7, whereas the deficiency of P and O evolved by Li4P2O7 resulted in the cyclic degradation of LiFePO4. This kind of correlation between structure and electrochemical performance in intercalation materials will significantly contribute to an explanation of their degradation mechanism for their application.

机译：改变了使用微波辐射的合成时间，以阐明与Fe2P的演化有关的LiFePO4的电化学降解机理。当Fe2P的含量超过临界水平时，LiFePO4倾向于变成绝缘相Li4P2O7。结构分析和电化学分析之间的相关性将LiFePO4的初始降解归因于Li4P2O7的低电子电导率，而Li4P2O7释放的P和O的缺乏导致LiFePO4的循环降解。插层材料的结构与电化学性能之间的这种相关性将极大地有助于解释其降解机理。

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《Inorganic Chemistry: A Research Journal that Includes Bioinorganic, Catalytic, Organometallic, Solid-State, and Synthetic Chemistry and Reaction Dynamics》 |2009年第17期|共5页
作者
Song MS; Kang YM; Kim YI; Park KS; Kwon HS;
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入库时间 2022-08-19 12:55:49

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1. Nature of Insulating-Phase Transition and Degradation of Structure and Electrochemical Reactivity in an Olivine-Structured Material, LiFePO4 [J] . Song MS, Kang YM, Kim YI, Inorganic Chemistry: A Research Journal that Includes Bioinorganic, Catalytic, Organometallic, Solid-State, and Synthetic Chemistry and Reaction Dynamics . 2009,第17期

机译：橄榄石结构材料LiFePO4的绝缘相转变和结构降解性质以及电化学反应性
2. The co-doping effects of Zr and Co on structure and electrochemical properties of LiFePO4 cathode materials [J] . Gao Libin, Xu Zhengrui, Zhang Shu Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2018,第期

机译：Zr和Co对LiFepo4阴极材料结构和电化学性能的共掺杂作用
3. Microstructure and electrochemical performance of LiFePO4 cathode materials modified with binuclear metal aminophthalocyanines [J] . Su Yuanyuan, Xu Feifei, Wang Ruiqiong, Journal of porphyrins and phthalocyanines . 2018,第12期

机译：用双核金属氨基酞菁改性LiFepo4阴极材料的微观结构和电化学性能
4. Comparison electrochemical performances of spherical LiFePO4/C cathode materials at low and high temperatures [C] . Chun-Chen Yang, Jer-Huan Jang, Jia-Rong Jiang International Conference on Applied Energy . 2015

机译：低温和高温球形Lifepo4 / C阴极材料的比较电化学性能
5. Enhancement in electrochemical performance of LiFePO4 -carbon nano composite materials for lithium ion batteries. [D] . Dhindsa, Kulwinder S. 2015

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6. Lithium Clusteringduring the Lithiation/DelithiationProcess in LiFePO4 Olivine-Structured Materials [O] . Yihua Lu, Jiagen Li, Yu Zhao, 2019

机译：锂聚类在锂化/脱锂期间LiFePO4橄榄石结构材料中的工艺
7. Battery and supercapacitor materials in flow cells. Electrochemical energy storage in a LiFePO4/reduced graphene oxide aqueous nanofluid [O] . Daniel Rueda-Garcia, Zahilia Cabán-Huertas, Sergi Sánchez-Ribot, 2018

机译：电池和超级电容器材料在流动细胞中。 LiFePO4 / Sypen氧化石墨烯水溶液中的电化学能量储存

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