Eco-friendly process toward collector- and binder-free, high-energy density electrodes for lithium-ion batteries

被引:0
作者
Thomas Bibienne
Laurent Maillaud
Steeve Rousselot
Lauren W. Taylor
Matteo Pasquali
Mickaël Dollé
机构
[1] University of Montreal,Chemistry Department
[2] Rice University,Department of Chemical and Biomolecular Engineering, The Smalley Institute for Nanoscience and Technology
[3] Rice University,Department of Chemistry, The Smalley Institute for Nanoscience and Technology
来源
Journal of Solid State Electrochemistry | 2017年 / 21卷
关键词
High-energy density electrodes; Self-standing electrodes; LiFePO; Collector- and binder-free electrodes; Eco-friendly synthesis;
D O I
暂无
中图分类号
学科分类号
摘要
The preparation of collector- and binder-free, high-energy density cathodes made from carbon-coated LiFePO4 (C-LFP) and single-walled carbon nanotubes (SWNT) is reported here. These electrodes were developed using a simple to execute, two-step, eco-friendly process. The C-LFP and the SWNT were dispersed in IPA and water, respectively, and then filtered. Electrodes with active material loading as high as 95 wt% were achieved. These electrodes exhibit high specific capacities of 144 mAh/g of electrode at C/10 rate. Additionally, the specific gravimetric power and energy of the C-LFP/SWNT self-standing electrodes surpassed that of the supported electrodes at high C-rate. Finally, the successful preparation of such high-energy density electrodes may provide a step toward the US DOE targets of batteries for electric vehicles for the year 2022.
引用
收藏
页码:1407 / 1416
页数:9
相关论文
共 258 条
[1]  
Scrosati B(2011)Lithium-ion batteries. A look into the future Energy Environ Sci 4 3287-3295
[2]  
Hassoun J(2012)Electrical energy storage for transportation—approaching the limits of, and going beyond, lithium-ion batteries Energy Environ Sci 5 7854-7863
[3]  
Sun Y-K(2011)Electrical energy storage for the grid: a battery of choices Science 334 928-935
[4]  
Thackeray MM(2013)The Li-ion rechargeable battery: a perspective J Am Chem Soc 135 1167-1176
[5]  
Wolverton C(2015)Prospects for reducing the processing cost of lithium ion batteries J Power Sources 275 234-242
[6]  
Isaacs ED(2011)A guide to Li-ion coin-cell electrode making for academic researchers J Electrochem Soc 158 A51-A57
[7]  
Dunn B(2016)A free-standing LiFePO4-carbon paper hybrid cathode for flexible lithium-ion batteries Green Chem 18 2691-2698
[8]  
Kamath H(2013)Mechanism of anodic dissolution of the aluminum current collector in 1 M LiTFSI EC:DEC 3:7 in rechargeable lithium batteries J Electrochem Soc 160 A356-A360
[9]  
Tarascon J-M(2007)Corrosion of aluminum current collectors in high-power lithium-ion batteries for use in hybrid electric vehicles J Electrochem Soc 154 C390-C396
[10]  
Goodenough JB(2002)Aluminum corrosion in electrolyte of Li-ion battery J Power Sources 109 458-464
12345678910