Capacity Fading of Ni-Rich NCA Cathodes: Effect of Microcracking Extent

Nam, Gyeong Won; Park, Nam-Yung; Park, Kang-Joon; Yang, Jihui; Liu, Jun; Yoon, Chong Seung; Sun, Yang‐Kook

doi:10.1021/acsenergylett.9b02302

articleACS Energy LettersNov 14, 2019Closed access

Capacity Fading of Ni-Rich NCA Cathodes: Effect of Microcracking Extent

GWGyeong Won Nam NPNam-Yung Park KPKang-Joon Park JYJihui Yang JLJun Liu

Hanyang University · University of Washington · +1 more institution

Indexed incrossref

Abstract

Ni-rich Li[Ni1–x–yCoxAly]O2 (NCA) cathodes (1 – x – y = 0.8, 0.88, and 0.95) are synthesized to investigate the capacity fading mechanism of Ni-rich NCA cathodes. The capacity retention and thermal property of the cathodes deteriorate as their discharge capacity increases when the Ni fraction is increased. The capacity fading correlates well with the anisotropic volume variations caused by the H2–H3 phase transition and the resulting extent of microcracking. Although all three cathodes start to develop microcracks after being charged to 3.9 V, the potential at which microcracks propagated to the outer surface of the particle decreases with increasing Ni content. These microcracks undermine the mechanical…

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Keywords

Cathode
Materials science
Electrolyte
Fading
Chemical engineering
Penetration (warfare)
Volume fraction
Composite material

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