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Nano-rods in Ni-rich layered cathodes for practical batteriesopen access

Authors
Park, Geon-TaePark, Nam-YungRyu, Hoon-HeeSun, H. HohyunHwang, Jang-YeonSun, Yang-Kook
Issue Date
Nov-2024
Publisher
ROYAL SOC CHEMISTRY
Citation
CHEMICAL SOCIETY REVIEWS, v.53, no.23, pp 11462 - 11518
Pages
57
Indexed
SCIE
SCOPUS
Journal Title
CHEMICAL SOCIETY REVIEWS
Volume
53
Number
23
Start Page
11462
End Page
11518
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/211272
DOI
10.1039/d3cs01110k
ISSN
0306-0012
1460-4744
Abstract
Lithium transition metal oxide layers, Li[Ni1−x−yCox(Mn and/or Al)y]O2, are widely used and mass-produced for current rechargeable battery cathodes. Development of cathode materials has focused on increasing the Ni content by simply controlling the chemical composition, but as the Ni content has almost reached its limit, a new breakthrough is required. In this regard, microstructural modification is rapidly emerging as a prospective approach, namely in the production of nano-rod layered cathode materials. A comprehensive review of the physicochemical properties and electrochemical performances of cathodes bearing the nano-rod microstructure is provided herein. A detailed discussion is regarding the structural stability of the cathode, which should be maximized to suppress microcrack formation, the main cause of capacity fading in Ni-rich cathode materials. In addition, the morphological features required to achieve optimal performance are examined. Following a discussion of the initial nano-rod cathodes, which were based on compositional concentration gradients, the preparation of nano-rod cathodes without the inclusion of a concentration gradient is reviewed, highlighting the importance of the precursor. Subsequently, the challenges and advances associated with the nano-rod structure are discussed, including considerations for synthesizing nano-rod cathodes and surface shielding of the nano-rod structure. It goes on to cover nano-rod cathode materials for next-generation batteries (e.g., all-solid-state, lithium-metal, and sodium-ion batteries), inspiring the battery community and other materials scientists looking for clues to the solution of the challenges that they encounter.
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