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Improving Cycling Stability of Ni-Rich Cathode for Lithium-Metal Batteries via Interphases Tunning

Authors
Kim, HunKim, Jae-MinPark, Geon-TaeAhn, Yeon-JiHwang, Jang-YeonAurbach, DoronSun, Yang-Kook
Issue Date
Mar-2025
Publisher
Wiley-VCH Verlag
Keywords
cathode morphology; electrolyte solutions; interphases; lithium-metal batteries; Ni-rich cathode
Citation
Advanced Energy Materials, v.15, no.10, pp 1 - 15
Pages
15
Indexed
SCIE
SCOPUS
Journal Title
Advanced Energy Materials
Volume
15
Number
10
Start Page
1
End Page
15
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/212189
DOI
10.1002/aenm.202403386
ISSN
1614-6832
1614-6840
Abstract
Combining Li-metal anodes (LMAs) with high-voltage Ni-rich layered-oxide cathodes is a promising approach to realizing high-energy-density Li secondary batteries. However, these systems experience severe capacity decay due to structural degradation of high-voltage cathodes and side reactions of electrolyte solutions with both electrodes. Herein, the use of multi-functional additives in fluoroethylene carbonate-based electrolyte solutions that enable the operation of successfully rechargeable high-voltage (4.5 V) Li-metal batteries (LMBs) with high areal capacity (>4 mAh cm−2) are reported. Customized electrolyte solutions are pivotal in passivating the electrodes, minimizing microcrack formation, and ensuring that current is uniformly distributed within cathode particles. The developed electrolyte solution protects the LMA by forming a very stable and effective solid–electrolyte interphase. Together with the Li[Ni0.78Co0.1Mn0.12]O2 cathode material, which is composed of radially aligned rod-shaped primary particles, the developed high-voltage LMB containing 20 mg cm−2 of cathode material delivers a high specific capacity of 230 mAh g−1 at 0.1 C and retains >86% of its initial capacity after 200 cycles at 0.5 C. This study highlights the significance of controlling the interfacial structure via electrolyte solution modification and the use of cathode materials with engineered morphologies that enhance mechanical stability.
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