磷酸锰铁锂作为更高能量密度的磷酸盐系材料,其应用有助于突破磷酸铁锂的能量密度瓶颈,因此迎来产业化契机。磷酸锰铁锂在能量密度,安全性,低温性能及成本方面具备优势。02—三元NCM、磷酸铁锂LFP、磷酸锰铁锂LFMP性能对比图3 三元NCM、磷酸铁锂LFP、磷酸锰铁锂LFMP性能对比表能量密度:三元(高镍) > 磷酸锰铁...
目前中航锂电创新性地采用NCM+LMFP复合正极材料体系,研制出了高比能量电池。目前有两个规格,金属壳为160Wh/kg,软包装的可以达到165Wh/kg。 总结一下,NCM+LMFP的共混量有比较高的能量密度、较长的循环和较好的稳定性,提高后的材料和纯NCM或NCM+锰酸锂相比,它的热稳定性可能更好。 谢谢大家。
To improve the conductivity of an NCM–LFMP composite electrode, three different conductive additives, namely carbon black, carbon nanotubes (CNTs), and graphene, were introduced into the electrode. Finally, battery safety tests were conducted on 1.1 Ah pouch cells fabricated in the p...
To improve the conductivity of an NCM–LFMP composite electrode, three different conductive additives, namely carbon black, carbon nanotubes (CNTs), and graphene, were introduced into the electrode. Finally, battery safety tests were conducted on 1.1 Ah pouch cells fabricated in the present study. ...