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Cited 14 time in webofscience Cited 14 time in scopus
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High-Capacity Layered-Spinel Cathodes for Li-Ion Batteries

Authors
Nayak, Prasant KumarLevi, ElenaGrinblat, JudithLevi, MikhaelMarkovsky, BorisMunichandraiah, N.Sun, Yang KookAurbach, Doron
Issue Date
Sep-2016
Publisher
Wiley - V C H Verlag GmbbH & Co.
Keywords
batteries; high capacity; layered-spinel composites; lithium-ion; lithium-insertion electrodes
Citation
ChemSusChem, v.9, no.17, pp 2404 - 2413
Pages
10
Indexed
SCI
SCIE
SCOPUS
Journal Title
ChemSusChem
Volume
9
Number
17
Start Page
2404
End Page
2413
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/5516
DOI
10.1002/cssc.201600576
ISSN
1864-5631
1864-564X
Abstract
Li and Mn-rich layered oxides with the general structure x Li2MnO3⋅(1–x) LiMO2 (M=Ni, Mn, Co) are promising cathode materials for Li-ion batteries because of their high specific capacity, which may be greater than 250 mA h g−1. However, these materials suffer from high first-cycle irreversible capacity, gradual capacity fading, limited rate capability and discharge voltage decay upon cycling, which prevent their commercialization. The decrease in average discharge voltage is a major issue, which is ascribed to a structural layered-to-spinel transformation upon cycling of these oxide cathodes in wide potential ranges with an upper limit higher than 4.5 V and a lower limit below 3 V versus Li. By using four elements systems (Li, Mn, Ni, O) with appropriate stoichiometry, it is possible to prepare high capacity composite cathode materials that contain LiMn1.5Ni0.5O4 and LixMnyNizO2 components. The Li and Mn-rich layered-spinel cathode materials studied herein exhibit a high specific capacity (≥200 mA h g−1) with good capacity retention upon cycling in a wide potential domain (2.4–4.9 V). The effect of constituent phases on their electrochemical performance, such as specific capacity, cycling stability, average discharge voltage, and rate capability, are explored here. This family of materials can provide high specific capacity, high rate capability, and promising cycle life. Using Co-free cathode materials is also an obvious advantage of these systems.
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