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Integrated one-step dry process enabling prelithiated thick electrodes without primer coating for high energy density and initial coulombic efficiencyopen access

Authors
Lee, Hyun-WookJeong, WoojinPark, SeongsooJi, Ho-JeongWoo, Ji-SuLee, JuhyunAn, Ye-JinHwang, Yu-ChanKim, Dong-HaChang, HongjunKim, MinseokJeong, MikangYoon, MoonsuLee, DongsooKim, JongsoonXu, Zheng-LongSong, TaeseupMoon, JanghyukChoi, JunghyunKwak, Won-Jin
Issue Date
Mar-2026
Publisher
ROYAL SOC CHEMISTRY
Citation
ENERGY & ENVIRONMENTAL SCIENCE, v.19, no.6, pp 1 - 10
Pages
10
Indexed
SCIE
SCOPUS
Journal Title
ENERGY & ENVIRONMENTAL SCIENCE
Volume
19
Number
6
Start Page
1
End Page
10
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/214925
DOI
10.1039/d5ee05739f
ISSN
1754-5692
1754-5706
Abstract
Dry-processed thick electrodes are a key strategy for increasing the energy density of batteries. However, thick dry electrodes, especially anodes, suffer from limited ion mobility, causing non-uniform solid–electrolyte interphase (SEI) formation and high irreversible capacity loss during the initial cycle. Moreover, the adhesive primer layer required during processing increases electrical resistance and necessitates additional wet-processing steps, thereby undermining both performance and process integrity. To address these issues, we propose an underlayer lithium-metal–configured prelithiation strategy for thick electrodes. Here, a lithium metal underlayer simultaneously functions as a primer, compensates for irreversible lithium loss during the initial cycle, and promotes uniform SEI formation through a chemical reaction. Consequently, this strategy enhances the initial coulombic efficiency and cycle stability of high-energy-density silicon–graphite/NCM811 full-cells. By overcoming the limitations of the conventional dry process, a fully dry manufacturing process is enabled and advances the development of next-generation high-energy-density batteries.
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