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Enabling 4.6 V LiNi0.6Co0.2Mn0.2O2 cathodes with excellent structural stability: combining surface LiLaO2 self-assembly and subsurface La-pillar engineering
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The solution proposed in this article is expected to provide direction for managing the internal structure and interface stability of NCM and can be extended to other cathode applications.
165619 PDFs Review articles in LITHIUM ION BATTERIES
The SEM images of NCM-811 (a), NCML-811 (b) and NCMLF-811 (c). d
PDF) Enabling 4.6 V LiNi0.6Co0.2Mn0.2O2 cathodes with excellent structural stability: combining surface LiLaO2 self-assembly and subsurface La-pillar engineering
Lithium metal stabilization for next-generation lithium-based batteries: from fundamental chemistry to advanced characterization and
Conductivity measurements and structural characterization of
Yan Lu's research works Hunan Normal University, Changsha and
XRD patterns of NCM-811, NCML-811, and NCMLF-811 at 10–70°
Lithium metal stabilization for next-generation lithium-based batteries: from fundamental chemistry to advanced characterization and effective protection
SEM images and XRD data of Li[Ni0.4Co0.3Mn0.3]O2 powder. (a
Haishang Cao's research works Contemporary Amperex Technology
Multi-dimensional correlation of layered Li-rich Mn-based cathode materials
Lithium metal stabilization for next-generation lithium-based batteries: from fundamental chemistry to advanced characterization and
HR‐TEM images of cycled a) U‐LNCM, d) P‐LNCM, and g) B‐LNCM
