Blending of LiFePO4/C microparticles with different sizes and its effect on the electrochemical performance of LiFePO4/C-based batteries

被引:0
作者
Lizhi Wen
Xiaoyan Wang
Xiaoming Liu
Jiachen Sun
Liwei An
Xin Ren
Zhenfei Li
Guangchuan Liang
Shaozhong Jiang
机构
[1] Hebei University of Technology,Institute of Power Source and Ecomaterials Science
[2] Tianjin Sino-German University of Applied Sciences,Automobile & Rail Transportation School
[3] North China University of Science and Technology,Qing Gong College
[4] Ministry of Education,Key Laboratory of Special Functional Materials for Ecological Environment and Information (Hebei University of Technology)
[5] Hebei University of Technology,Key Laboratory for New Type of Functional Materials in Hebei Province
来源
Ionics | 2019年 / 25卷
关键词
Blended spherical cathodes; Lithium-ion battery; Internal resistance; Electrochemical performance;
D O I
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中图分类号
学科分类号
摘要
Blended spherical cathodes of lithium iron phosphate with different morphology were prepared using a physical mixing method. The lithium iron phosphate spherical material with high tapped density and non-spherical lithium iron phosphate material with good processing properties were compounded in different proportions. The processability and electrochemical properties of blended spherical cathodes were systematically investigated. The characterization results suggest that the blended spherical cathode material not only exerts the complementary advantages of the spherical and non-spherical material, but also produces a synergistic effect, which improves the processing property of the spherical material. This unique property reduces the internal resistance of the contact between the particles, thereby reducing the internal resistance of battery and improving the overall performance of battery.
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页码:5269 / 5276
页数:7
相关论文
共 141 条
  • [21] Kleperis J(2014) nanocrystals mediated by organic acid J Power Sources 248 91-1461
  • [22] Vicente N(2006)Effect of silver and carbon double coating on the electrochemical performance of LiFePO J Electrochim Acta 52 1457-1093
  • [23] Haro M(2014) cathode material for lithium ion batteries Ionics 20 1087-5919
  • [24] Cíntora-Juárez D(2006)Effect of carbon source on the particles morphology and carbon structure of LiFePO Electrochim Acta 51 5912-A1316
  • [25] Vicente CP(2017)/C composites J Appl Electrochem 44 1179-189
  • [26] Tirado JL(2016)Carbon coated lithium cobalt phosphate for Li-ion batteries: comparison of three coating techniques J Electrochem Soc 163 A1131-337
  • [27] Yan CC(2015)Influence of particle morphologies of LiFePO Mater Chem Phys 166 182-795
  • [28] Jang JH(2015) on water and solvent-based processing and electrochemical properties Rare Metals 34 334-1129
  • [29] Jiang JR(2019)Preparation and electrochemical performances of LiFePO J Alloys Compd 773 788-4551
  • [30] Chung SY(2011)/C composite nanobelts via facile electrospinning Adv Mater 23 1126-147
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