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Literature DB >> 27802012

Understanding the Degradation Mechanism of Lithium Nickel Oxide Cathodes for Li-Ion Batteries.

Jing Xu¹, Enyuan Hu, Dennis Nordlund², Apurva Mehta², Steven N Ehrlich, Xiao-Qing Yang, Wei Tong¹.

Abstract

The phase transition, charge compensation, and local chemical environment of Ni in LiNiO2 were investigated to understand the degradation mechanism. The electrode was subjected to a variety of bulk and surface-sensitive characterization techniques under different charge-discharge cycling conditions. We observed the phase transition from the original hexagonal H1 phase to another two hexagonal phases (H2 and H3) upon Li deintercalation. Moreover, the gradual loss of H3-phase features was revealed during the repeated charges. The reduction in Ni redox activity occurred at both the charge and the discharge states, and it appeared both in the bulk and at the surface over the extended cycles. The degradation of crystal structure significantly contributes to the reduction of Ni redox activity, which in turn causes the cycling performance decay of LiNiO2.

Entities: Chemical

Keywords: Li-ion batteries; Ni-rich layered oxide cathode; capacity fade; phase evolution; redox reaction; surface characteristics

Year: 2016 PMID： 27802012 DOI： 10.1021/acsami.6b11111

Source DB: PubMed Journal: ACS Appl Mater Interfaces ISSN： 1944-8244 Impact factor: 9.229

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Cited

4 in total

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Journal: Nature Date: 2022-09-21 Impact factor: 69.504

2. Sequential delithiation behavior and structural rearrangement of a nanoscale composite-structured Li_1.2Ni_0.2Mn_0.6O₂ during charge-discharge cycles.

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Journal: Sci Rep Date: 2020-06-22 Impact factor: 4.379

3. Enabling high energy lithium metal batteries via single-crystal Ni-rich cathode material co-doping strategy.

Authors: Xing Ou; Tongchao Liu; Wentao Zhong; Xinming Fan; Xueyi Guo; Xiaojing Huang; Liang Cao; Junhua Hu; Bao Zhang; Yong S Chu; Guorong Hu; Zhang Lin; Mouad Dahbi; Jones Alami; Khalil Amine; Chenghao Yang; Jun Lu
Journal: Nat Commun Date: 2022-04-28 Impact factor: 17.694

4. Surface Modification of LiNi_0.8 Co_0.15 Al_0.05 O₂ Particles via Li₃ PO₄ Coating to Enable Aqueous Electrode Processing.

Authors: Michael Hofmann; Felix Nagler; Martina Kapuschinski; Uwe Guntow; Guinevere A Giffin
Journal: ChemSusChem Date: 2020-10-07 Impact factor: 8.928