电源技术
電源技術
전원기술
CHINESE JOURNAL OF POWER SOURCES
2015年
4期
671-672,687
,共3页
锂离子电池%高倍率%磷酸铁锂%分散剂
鋰離子電池%高倍率%燐痠鐵鋰%分散劑
리리자전지%고배솔%린산철리%분산제
Li-ion cells%high rate%lithium iron phosphate%dispersant
采用粒度分析、流变分析、扫描电子显微镜法(SEM)等技术研究了PVP分散剂添加量对LiFePO4正极浆料粒度分布及流变性的影响规律。通过配方优化,制作高倍率放电18650型LiFePO4锂离子电池,并对其循环及倍率等性能进行了对比研究。结果表明,随着PVP加入量的提高,浆料的黏度呈现下降的趋势,浆料的粒度则先减小后增大,PVP加入量在0.4%~0.8%时,可达到最优的浆料分散效果。用PVP含量0.6%的LiFePO4正极浆料制作容量为1.1 Ah的18650电池表现出优异的高倍率放电及循环性能,在1.5 A充10 A放的条件下,900次循环后容量保持率高达90%以上,优于未使用PVP分散剂的传统磷酸铁锂电池;30 A高倍率放电容量可达到标称容量的94.6%。
採用粒度分析、流變分析、掃描電子顯微鏡法(SEM)等技術研究瞭PVP分散劑添加量對LiFePO4正極漿料粒度分佈及流變性的影響規律。通過配方優化,製作高倍率放電18650型LiFePO4鋰離子電池,併對其循環及倍率等性能進行瞭對比研究。結果錶明,隨著PVP加入量的提高,漿料的黏度呈現下降的趨勢,漿料的粒度則先減小後增大,PVP加入量在0.4%~0.8%時,可達到最優的漿料分散效果。用PVP含量0.6%的LiFePO4正極漿料製作容量為1.1 Ah的18650電池錶現齣優異的高倍率放電及循環性能,在1.5 A充10 A放的條件下,900次循環後容量保持率高達90%以上,優于未使用PVP分散劑的傳統燐痠鐵鋰電池;30 A高倍率放電容量可達到標稱容量的94.6%。
채용립도분석、류변분석、소묘전자현미경법(SEM)등기술연구료PVP분산제첨가량대LiFePO4정겁장료립도분포급류변성적영향규률。통과배방우화,제작고배솔방전18650형LiFePO4리리자전지,병대기순배급배솔등성능진행료대비연구。결과표명,수착PVP가입량적제고,장료적점도정현하강적추세,장료적립도칙선감소후증대,PVP가입량재0.4%~0.8%시,가체도최우적장료분산효과。용PVP함량0.6%적LiFePO4정겁장료제작용량위1.1 Ah적18650전지표현출우이적고배솔방전급순배성능,재1.5 A충10 A방적조건하,900차순배후용량보지솔고체90%이상,우우미사용PVP분산제적전통린산철리전지;30 A고배솔방전용량가체도표칭용량적94.6%。
The particle size analysis, rheological analysis and SEM observation were applied to study the effects of PVP dispersant content on particle size distribution and rheologic behavior of LiFePO4 slurry. 18650 Li-ion cells with LiFePO4 cathode were fabricated through formula optimization, and cycle and rate performances of the cells were evaluated and compared to the cellwithout PVP. The results show that the slurry viscosity decreases with the increase of PVP content, and the particle size of slurry declines firstly then rises. The best PVP amount is 0.4%~0.8%. The LiFePO4 cathode with 0.6%PVP was used to prepare 1.1 Ah 18650 Li-ion cells, having perfect high rate discharge and cycle performances. More than 90%of capacity retention after charging at 1.5 A and discharging at 10 A is achieved after 900 cycles for the cellwith PVP, which is superior to traditional one. The capacity retention is 94.6%even at 30 A discharge rate for the cellwith PVP.