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Interfacial modulation of bifunctional electrolyte additive engineering for dendrite-free and robust lithium metal anode

Authors
Shaik, Mahammad RafiPark, YongminJung, Young-KwangIm, Won Bin
Issue Date
Oct-2024
Publisher
ELSEVIER
Keywords
Lithium rechargeable battery; Dendrite -free; Electrolyte additive; Bifunctional electrolyteInter; facial layer
Citation
JOURNAL OF ENERGY CHEMISTRY, v.97, pp 120 - 127
Pages
8
Indexed
SCIE
SCOPUS
Journal Title
JOURNAL OF ENERGY CHEMISTRY
Volume
97
Start Page
120
End Page
127
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/213130
DOI
10.1016/j.jechem.2024.05.036
ISSN
2095-4956
2096-885X
Abstract
Anode materials for rechargeable electric car batteries are obtained from Li-metal owing to their extremely high specific capacity and low redox potential. Unfortunately, safety concerns related to dendrite formation on the anode surface caused by the uneven distribution of Li-ions during the discharge process interfere with the use of Li-metal in industrial batteries. In this study, methyl vinyl sulfone (MVS), a sulfone-based functional electrolyte additive, is used in an additive engineering strategy to control Li-electrolyte interactions and address the aforementioned problems. Li dendrite growth may be restricted, and transition metal degradation on the surface of the cathode can be reduced by the MVS-derived functional electrolyte additive interfacial layer. The electrochemical performance of an ethylene carbonate/dimethyl carbonate (EC/DMC) + 1 wt% MVS Li-metal anode of a Li||Li symmetric cell exhibits remarkable cycle stability, maintaining a low overvoltage for over 750 h at 1 mA cm−2, and capacity of 1 mA h cm−2. Additionally, LiNi0.8Co0.1Mn0.1O2 (NCM811) full cells with the MVS additive exhibit enhanced electrochemical stability for 250 cycles at a current density of 100 mA g−1. This study provides an innovative approach for stabilizing the metal-electrolyte interfacial layer that may be used for practical applications in metal-based rechargeable batteries.
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