Revealing High Na-Content P2-Type Layered Oxides as Advanced Sodium-Ion Cathodes
Chenglong Zhao(Chinese Academy of Sciences), Zhenpeng Yao(Harvard University), Qidi Wang(University Town of Shenzhen), Haifeng Li(University of Illinois Chicago), Jianlin Wang(Chinese Academy of Sciences), Ming Liu(Delft University of Technology), Swapna Ganapathy(Delft University of Technology), Yaxiang Lu(Chinese Academy of Sciences), Jordi Cabana(University of Illinois Chicago), Baohua Li(University Town of Shenzhen), Xuedong Bai(Chinese Academy of Sciences), Alán Aspuru‐Guzik(Harvard University), Marnix Wagemaker(Delft University of Technology), Liquan Chen(Chinese Academy of Sciences), Yong‐Sheng Hu(Chinese Academy of Sciences)
Cited by 426Open Access
Abstract
layers (P2-O2 structural transition), as reflected by the ultralong cycle life (3000 (dis)charge cycles demonstrated). These findings expand the horizons of high Na-content P2-type materials, providing new insights of the electronic and structural chemistry for advanced cathode materials.
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