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10 mAh cm<SUP>-2</SUP> Cathode by Roll-to-Roll Process for Low Cost and High Energy Density Li-Ion Batteries10 mAh cm-2 Cathode by Roll-to-Roll Process for Low Cost and High Energy Density Li-Ion Batteries

Other Titles
10 mAh cm-2 Cathode by Roll-to-Roll Process for Low Cost and High Energy Density Li-Ion Batteries
Authors
Kim, JiwoonPark, KeeminKim, MinsungLee, HyungjunChoi, JunghyunPark, Ho BumKim, HansuJang, JaeyoungKim, Young-HoonSong, TaeseupPaik, Ungyu
Issue Date
Mar-2024
Publisher
Wiley-VCH Verlag
Keywords
dry processing; high energy density; homogeneous microstructure; PTFE fibrillization; roll-to-roll process
Citation
Advanced Energy Materials, v.14, no.10, pp 1 - 11
Pages
11
Indexed
SCIE
SCOPUS
Journal Title
Advanced Energy Materials
Volume
14
Number
10
Start Page
1
End Page
11
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/196746
DOI
10.1002/aenm.202303455
ISSN
1614-6832
1614-6840
Abstract
Roll-to-roll dry processing enables the manufacture of high energy density and low cost Li-ion batteries (LIBs). However, as the thickness of the electrode fabricated by dry processing becomes greater (>= 10 mAh cm(-2)), Li-ion migration resistance (R-ion) and charge-transfer resistance (R-ct) in the electrode dramatically increase due to long diffusion lengths for Li-ion and electron. Therefore, it is important to reduce diffusion lengths in the electrode to achieve high energy density LIBs. The dry electrode with a high areal capacity of 10 mAh cm(-2) and low resistance can be achieved by following three characteristics. First, the fibrillization behavior of polytetrafluoroethylene (PTFE) binder is controlled by adjusting the processing temperature during the fibrillization process, which enables uniform distribution of PTFE binder and carbon black (CB). Second, pore size/distribution and conducting network are engineered by multi-dimensional conducting agents, enhancing Li-ions and electrons transport in the electrode. Finally, the structural integrity of LiNi0.80Co0.15Al0.05O2 (NCA) particles is improved without fractures, which enables uniform pore distribution in the electrode by controlling the calendering step. The prepared 10 mAh cm(-2) dry electrode with homogeneous microstructure shows reduced R-ion and R-ct due to short diffusion lengths, which improves electrochemical performances in LIBs with a high volumetric energy density of approximate to 710 Wh L-1.
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