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Tailoring Lithium Horizontal Deposition for Long-Lasting High-Loading NCA (≥5 mA h cm<SUP>-2</SUP>)||Lithium-Metal Full Cells in Carbonate ElectrolytesTailoring Lithium Horizontal Deposition for Long-Lasting High-Loading NCA (≥5 mA h cm-2)||Lithium-Metal Full Cells in Carbonate Electrolytes

Other Titles
Tailoring Lithium Horizontal Deposition for Long-Lasting High-Loading NCA (≥5 mA h cm-2)||Lithium-Metal Full Cells in Carbonate Electrolytes
Authors
Ku, EunmoYang, Ho-SungLee, Hae GonLee, HoseongJeon, ByungkyuHong, Seong-UngHong, SeokwonLim, Hee-DaePark, Jun-HoKim, Jung HanChoi, JunLee, Byoung-Sun
Issue Date
Oct-2024
Publisher
American Chemical Society
Keywords
high-loading NCA; horizontal Li deposition; Li affinity; Li-metal battery; synergistichosting layer
Citation
ACS Nano, v.18, no.41, pp 28115 - 28130
Pages
16
Indexed
SCIE
SCOPUS
Journal Title
ACS Nano
Volume
18
Number
41
Start Page
28115
End Page
28130
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/197913
DOI
10.1021/acsnano.4c07584
ISSN
1936-0851
1936-086X
Abstract
We report a design for a synergistic lithium (Li) metal hosting layer for high-loading Li(Ni,Co,Al)O-2 (NCA) (>= 5 mA h cm(-2))||Li-metal full cells in carbonate electrolytes. Based on density functional theory calculations, the hosting layer was designed as a three-dimensional silver/carbon composite nanofiber (Ag/CNF) network with high Li affinity and a platinum (Pt)-coated polypropylene separator with low Li affinity. This design enabled the tailoring of horizontal Li deposition on the Ag/CNF hosting layer. The Li deposition behavior modulated by the hosting layer was thoroughly examined based on the initial Li deposition and cycling behaviors of the Li||Li symmetric cell configuration. Cryogenic focused-ion beam cross-sectional images of the cycled Li anodes clearly demonstrated that dense lithium deposition was enabled by the synergistic hosting layer high-loading NCA (>= 5 mA h cm(-2))||Li-metal full cells. When the hosting layer was used, the average cycling performance improved by 78.27% under various cycling conditions. Our work demonstrates that the synergistic hosting layer design is a fruitful pathway to accelerate the commercialization of high-energy-density Li-metal batteries in carbonate electrolytes.
We report a design for a synergistic lithium (Li) metal hosting layer for highloading Li(Ni,Co,Al)O2 (NCA) (≥5 mA h cm−2)||Li−metal full cells in carbonate electrolytes. Based on density functional theory calculations, the hosting layer was designed as a three-dimensional silver/carbon composite nanofiber (Ag/CNF) network with high Li affinity and a platinum (Pt)-coated polypropylene separator with low Li affinity. This design enabled the tailoring of horizontal Li deposition on the Ag/CNF hosting layer. The Li deposition behavior modulated by the hosting layer was thoroughly examined based on the initial Li deposition and cycling behaviors of the Li||Li symmetric cell configuration. Cryogenic focused-ion beam cross-sectional images of the cycled Li anodes clearly demonstrated that dense lithium deposition was enabled by the synergistic hosting layer high-loading NCA (≥5 mA h cm−2)||Li−metal full cells. When the hosting layer was used, the average cycling performance improved by 78.27% under various cycling conditions. Our work demonstrates that the synergistic hosting layer design is a fruitful pathway to accelerate the commercialization of high-energy-density Li−metal batteries in carbonate electrolytes.
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