1) Excess lithium
富锂
1.
Doping (body-doping and surface-doping) cooperated with excess lithium method was more effective way to restrain the capacity fading during cycle.
掺杂(体相、表面相)和富锂相结合的方案能更有效地抑制尖晶石LiMn2O4的容量衰减。
2) Li rich Czochralski method
富锂提拉法
1.
Near stoichiometric LiNbO_3 crystals were grown by K_2O flux Czochralski method and Li rich Czochralski method, respectively.
分别采用K2O助溶剂提拉法和富锂提拉法生长了近化学计量比LiNbO3 晶体。
3) lithium-rich spinel Li4Mn5O12
富锂尖晶石Li4Mn5O12
4) Li F rich granite
富锂氟花岗岩
5) Li-rich cathode material
富锂正极材料
1.
The Li-rich cathode materials Li[NixLi1/3-2x/3Mn2/3-x/3]O2(x=1/5,1/4,1/3)were synthesized with co-precipitated metal hydroxide precursors M(OH)2(M=Mn,Ni).
通过共沉淀法制备了M(OH)2(M=Mn,Ni)前驱体,并与LiOH混合,合成了锂离子电池富锂正极材料Li[NixLi1/3-2x/3Mn2/3-x/3]O2,采用XRD、SEM和充放电实验对其进行表征。
6) layered rich lithium cathode
富锂层状阴极材料
补充资料:锂蒙脱石,锂皂石,汉克托石
CAS:12173-47-6
中文名称:锂蒙脱石;水辉石;锂蒙脱石,锂皂石,汉克托石
英文名称:Hectorite;Veegumt;hectorite(clay mineral);hectorite(claymineral)
中文名称:锂蒙脱石;水辉石;锂蒙脱石,锂皂石,汉克托石
英文名称:Hectorite;Veegumt;hectorite(clay mineral);hectorite(claymineral)
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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