| Mg-Y共掺杂高电压钴酸锂正极材料的合成及其性能研究 |
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| 引用本文: | 阮丁山,李玲,杜柯,毛林林,李斌,方庆城,徐振鹏,胡国荣.Mg-Y共掺杂高电压钴酸锂正极材料的合成及其性能研究[J].稀有金属材料与工程,2021,50(3):1026-1031. |
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| 作者姓名: | 阮丁山 李玲 杜柯 毛林林 李斌 方庆城 徐振鹏 胡国荣 |
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| 作者单位: | 广东邦普循环科技有限公司,广东邦普循环科技有限公司,中南大学冶金与环境学院,广东邦普循环科技有限公司,广东邦普循环科技有限公司,广东邦普循环科技有限公司,广东邦普循环科技有限公司,中南大学冶金与环境学院 |
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| 摘 要: | 将Co3O4、Li2CO3、Mg(OH)_2和Y2O3按一定化学计量比称取并混合均匀后,采用高温固相法合成LiCo1-x-yMgxYyO2正极材料并探究了Mg-Y共掺杂对钴酸锂高电压性能的影响。采用X射线衍射(XRD)和扫描电镜(SEM)分别表征其晶体结构和形貌。LiCo1-x-yMgxYyO2正极材料高电压性能测试结果表明选择Mg掺杂量为0.2%(质量分数),当Y的掺杂量为0.10%(质量分数)时,在3.0~4.6 V电压范围内0.5 C倍率下的初始放电比容量为212 mAh/g,循环50周的容量保持率为96.3%。4 C大倍率下,未掺杂Y元素样品容量保持率为54.9%,相比之下Y掺杂后容量保持率提高为60.4%。
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| 关 键 词: | 锂离子电池 正极材料 钴酸锂 掺杂改性 |
| 收稿时间: | 2020/5/14 0:00:00 |
| 修稿时间: | 2020/6/3 0:00:00 |
The synthesis of Mg-Y doped Cobalt Oxide cathode material and the studies on its performance in high voltage |
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| Ruan Ding-shan,Li Ling,Du Ke,Mao Lin-lin,Li Bin,Fang Qing-cheng,Xu Zhen-peng and Hu Guo-rong.The synthesis of Mg-Y doped Cobalt Oxide cathode material and the studies on its performance in high voltage[J].Rare Metal Materials and Engineering,2021,50(3):1026-1031. |
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| Authors: | Ruan Ding-shan Li Ling Du Ke Mao Lin-lin Li Bin Fang Qing-cheng Xu Zhen-peng and Hu Guo-rong |
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| Affiliation: | Guangdong Brunp Recycling Technology Co,Ltd,Guangdong Brunp Recycling Technology Co,Ltd,School of Metallurgy and Environment,Central south University,Guangdong Brunp Recycling Technology Co,Ltd,Guangdong Brunp Recycling Technology Co,Ltd,Guangdong Brunp Recycling Technology Co,Ltd,Guangdong Brunp Recycling Technology Co,Ltd,School of Metallurgy and Environment,Central south University |
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| Abstract: | In order to improve the lifetime of the Lithium-ion battery, Mg-Y co-doped LiCoO2 was prepared by high temperature solid phase synthesis, with Co3O4, Li2CO3, Mg(OH)2 and Y2O3 as raw materials. The structure and morphology were characterized by X-ray diffraction (XRD) and scanning electron microscpoe (SEM). The battery achieved best electrochemical performance when the cathode is doped with 0.10wt% yttrium and 0.20wt% magnesium. The results of electrochemical performance showed that the initial discharge capacity was 212.3 mAh/g at 0.5C, 3.0-4.6V and with the outstanding capacity retention of 96.28% after 50 cycles at 3.0-4.6V. The discharge capacity of co-doped LiCoO2 at 4.0C remained 60.43% of the discharge capacity at 0.2C, while that of Mg only doped LiCoO2 is only 54.92%. |
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| Keywords: | lithium-ion battery cathode material LiCoO2 doped |
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