Effect of sintering temperature on the electrochemical performance of Li-rich Mn-basfed cathode material Li1.2Mn0.54Ni0.13Co0.13O2 by co-precipitation method

The multi-void spherical structure of Li-rich Mn-based cathode materials was successfully prepared with an improved co-precipitation method using acetate as the system. By XRD, TEM, and SEM characterization and observation, the materials at the sintering temperature of 800℃ have a favorable crystal...

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Veröffentlicht in:	Journal of electroanalytical chemistry (Lausanne, Switzerland) Switzerland), 2021-08, Vol.895, p.115439, Article 115439
Hauptverfasser:	Huang, Zhaoyu, Wang, Xuan, Feng, Wangjun, Li, Weixue, Shi, Zhaojiao, Lei, Ziru
Format:	Artikel
Sprache:	eng
Schlagworte:	Cathodes Coprecipitation Crystal structure Decay Electrochemical analysis Electrochemical performance Electrode materials Lamellar structure Li-rich Mn-based Morphology Morphology structure Sintering Sintering temperature
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creator	Huang, Zhaoyu Wang, Xuan Feng, Wangjun Li, Weixue Shi, Zhaojiao Lei, Ziru
description	The multi-void spherical structure of Li-rich Mn-based cathode materials was successfully prepared with an improved co-precipitation method using acetate as the system. By XRD, TEM, and SEM characterization and observation, the materials at the sintering temperature of 800℃ have a favorable crystal structure and lamellar structure, and it has more uniform primary particle and secondary particle morphology under SEM. The electrochemical results show that the initial discharge capacity of LMNCO-800 at 0.1C is 239.2 mAh/g. At high rates of 0.5C and 2C, it can provide capacities of 200.2 mAh/g and 145.0 mAh/g, and the capacity retention rates of 200 cycles are 85.11% and 88.21%, respectively. It can be seen more intuitively from the capacity decay and dQ/dV diagrams at 1C that the capacity decay trend of the material is more stable when the sintering temperature is 800℃, which is more helpful to stabilize the structure and delay the transformation of the layered structure to the spinel structure.
doi_str_mv	10.1016/j.jelechem.2021.115439
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By XRD, TEM, and SEM characterization and observation, the materials at the sintering temperature of 800℃ have a favorable crystal structure and lamellar structure, and it has more uniform primary particle and secondary particle morphology under SEM. The electrochemical results show that the initial discharge capacity of LMNCO-800 at 0.1C is 239.2 mAh/g. At high rates of 0.5C and 2C, it can provide capacities of 200.2 mAh/g and 145.0 mAh/g, and the capacity retention rates of 200 cycles are 85.11% and 88.21%, respectively. It can be seen more intuitively from the capacity decay and dQ/dV diagrams at 1C that the capacity decay trend of the material is more stable when the sintering temperature is 800℃, which is more helpful to stabilize the structure and delay the transformation of the layered structure to the spinel structure.</description><identifier>ISSN: 1572-6657</identifier><identifier>EISSN: 1873-2569</identifier><identifier>DOI: 10.1016/j.jelechem.2021.115439</identifier><language>eng</language><publisher>Amsterdam: Elsevier B.V</publisher><subject>Cathodes ; Coprecipitation ; Crystal structure ; Decay ; Electrochemical analysis ; Electrochemical performance ; Electrode materials ; Lamellar structure ; Li-rich Mn-based ; Morphology ; Morphology structure ; Sintering ; Sintering temperature</subject><ispartof>Journal of electroanalytical chemistry (Lausanne, Switzerland), 2021-08, Vol.895, p.115439, Article 115439</ispartof><rights>2021</rights><rights>Copyright Elsevier Science Ltd. 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By XRD, TEM, and SEM characterization and observation, the materials at the sintering temperature of 800℃ have a favorable crystal structure and lamellar structure, and it has more uniform primary particle and secondary particle morphology under SEM. The electrochemical results show that the initial discharge capacity of LMNCO-800 at 0.1C is 239.2 mAh/g. At high rates of 0.5C and 2C, it can provide capacities of 200.2 mAh/g and 145.0 mAh/g, and the capacity retention rates of 200 cycles are 85.11% and 88.21%, respectively. It can be seen more intuitively from the capacity decay and dQ/dV diagrams at 1C that the capacity decay trend of the material is more stable when the sintering temperature is 800℃, which is more helpful to stabilize the structure and delay the transformation of the layered structure to the spinel structure.</abstract><cop>Amsterdam</cop><pub>Elsevier B.V</pub><doi>10.1016/j.jelechem.2021.115439</doi></addata></record>
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subjects	Cathodes Coprecipitation Crystal structure Decay Electrochemical analysis Electrochemical performance Electrode materials Lamellar structure Li-rich Mn-based Morphology Morphology structure Sintering Sintering temperature
title	Effect of sintering temperature on the electrochemical performance of Li-rich Mn-basfed cathode material Li1.2Mn0.54Ni0.13Co0.13O2 by co-precipitation method
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