2023.3Vol.47No.3研究与设计收稿日期:2022-08-24作者简介:谭显艳(1981—),女,四川省人,工程师,主要研究方向为电化学。NCM811正极材料的高能量密度体系软包电池评价谭显艳1,高旭光2,张志平2(1.湖南烁科热工智能装备有限公司,湖南长沙410111;2.广东博力威科技股份有限公司,广东东莞523749)摘要:因高镍三元锂离子电池具有高能量密度而成为海内外中高端车企共同选择的对象。然而,三元正极在循环过程中会经历从H2到H3的相变而导致较大的晶格体积变化,造成二次球三元材料在循环过程中容易发生颗粒破碎,导致电池阻抗增加和衰减严重。而单晶三元材料几乎由一次颗粒构成,循环过程颗粒保持较好。通过将市售的单晶NCM811和二次球NCM811分别制作成5Ah软包叠片电池,研究对比发现:二次球NCM811在室温25℃下经过2000次循环容量保持率为84.2%,而单晶NCM811电芯容量保持率90.5%;在45℃下,二次球样品经过1300次循环,容量衰减到80%,而单晶样品经过2000次循环容量保持率仍有86.3%,具有更优的循环性能。其他关键指标,如存储、产气等方面单晶优势明显。关键词:锂离子电池;高镍;NCM811;单晶中图分类号:TM912文献标识码:A文章编号:1002-087X(2023)03-0294-04DOI:10.3969/j.issn.1002-087X.2023.03.005EvaluationofNCM811cathodematerialsforpouchcellwithhighenergydensityTANXianyan1,GAOXuguang2,ZHANGZhiping2(1.HunanSemicoreThermalIntelligentEquipmentCo.,Ltd.,ChangshaHunan410111,China;2.GreenwayTechnologyCo.,Ltd.,DongguanGuangdong523749,China)Abstract:Thehigh-nickelNCMlithiumionbatterywithhighenergydensityhasbecomethemaintechnicalroutechosenbymiddleandhigh-endelectricalautocompaniesinthedomesticandoverseas.However,NCMcathodeundergoesaphasetransitionfromH2toH3duringthecharge/dischargecycle,whichwillcausealargelatticevolumechangeandleadtotheparticlecrackofthesecondarysphere,resultingintheincreaseofcellimpedanceandacceleratedcyclefading.ThemonocrystalNCMisalmostcomposedofprimaryparticles,andtheparticleintegritycanbemaintainedduringthecycling.ThecommercialNCM811monocrystalcathodematerialandsecondarysphereNCM811cathodematerialwerecomparedbymaking5Ahpouchlaminatedbattery.TheresultsshowthatthecapacityretentionratioofthesecondarysphereNCM811cellis84.2%after2000...
