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JOURNAL ARTICLE

Toward Practical Application of Functional Conductive Polymer Binder for a High-Energy Lithium-Ion Battery Design

Hui ZhaoZhihui WangPeng LuMeng JiangAbdelbast GuerfiVince BattagliaXingcheng XiaoKarim ZaghibGao Liu

Year: 2015 Journal:   ECS Meeting Abstracts Vol: MA2015-01 (2)Pages: 344-344   Publisher: Institute of Physics
DOI: 10.1149/ma2015-01/2/344
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Abstract

Silicon alloys have the highest specific capacity when used as anode material for lithium-ion batteries; however, the drastic volume change inherent in their use causes formidable challenges toward achieving stable cycling performance. Large quantities of binders and conductive additives are typically necessary to maintain good cell performance. In this report, only 2% (by weight) functional conductive polymer binder without any conductive additives was successfully used with a micron-size silicon monoxide (SiO) anode material, demonstrating stable and high gravimetric capacity (>1000 mAh/g) for ∼500 cycles and more than 90% capacity retention. Prelithiation of this anode using stabilized lithium metal powder (SLMP) improves the first cycle Coulombic efficiency of a SiO/NMC full cell from ∼48% to ∼90%. The combination enables good capacity retention of more than 80% after 100 cycles at C/3 in a lithium-ion full cell. Figure 1

Keywords:
Faraday efficiency Anode Materials science Gravimetric analysis Lithium (medication) Electrical conductor Silicon Battery (electricity) Silicon monoxide Current collector Chemical engineering Polymer Lithium-ion battery Electrode Composite material Chemistry Optoelectronics Organic chemistry

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Topics

Advancements in Battery Materials
Physical Sciences →  Engineering →  Electrical and Electronic Engineering
Advanced Battery Technologies Research
Physical Sciences →  Engineering →  Automotive Engineering
Recycling and Waste Management Techniques
Physical Sciences →  Environmental Science →  Industrial and Manufacturing Engineering

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