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Bicontinuous phase separation of lithium-ion battery electrodes for ultrahigh areal loading
by
Lee, Jung Tae
, DeVolder, Michael
, Jo, Changshin
in
Cathodes
/ Coated electrodes
/ Continuous coating
/ Electrochemical analysis
/ Electrochemistry
/ Electrodes
/ Electrolytes
/ Electrolytic cells
/ Electron transport
/ Engineering
/ Lithium
/ Lithium-ion batteries
/ Phase separation
/ Physical Sciences
/ Rechargeable batteries
/ Roller coating
/ Separators
2020
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Bicontinuous phase separation of lithium-ion battery electrodes for ultrahigh areal loading
by
Lee, Jung Tae
, DeVolder, Michael
, Jo, Changshin
in
Cathodes
/ Coated electrodes
/ Continuous coating
/ Electrochemical analysis
/ Electrochemistry
/ Electrodes
/ Electrolytes
/ Electrolytic cells
/ Electron transport
/ Engineering
/ Lithium
/ Lithium-ion batteries
/ Phase separation
/ Physical Sciences
/ Rechargeable batteries
/ Roller coating
/ Separators
2020
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While trying to remove the title from your shelf something went wrong :( Kindly try again later!
Do you wish to request the book?
Bicontinuous phase separation of lithium-ion battery electrodes for ultrahigh areal loading
by
Lee, Jung Tae
, DeVolder, Michael
, Jo, Changshin
in
Cathodes
/ Coated electrodes
/ Continuous coating
/ Electrochemical analysis
/ Electrochemistry
/ Electrodes
/ Electrolytes
/ Electrolytic cells
/ Electron transport
/ Engineering
/ Lithium
/ Lithium-ion batteries
/ Phase separation
/ Physical Sciences
/ Rechargeable batteries
/ Roller coating
/ Separators
2020
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Bicontinuous phase separation of lithium-ion battery electrodes for ultrahigh areal loading
Journal Article
Bicontinuous phase separation of lithium-ion battery electrodes for ultrahigh areal loading
2020
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Overview
Ultrathick battery electrodes are appealing as they reduce the fraction of inactive battery parts such as current collectors and separators. However, thick electrodes are difficult to dry and tend to crack or flake during production. Moreover, the electrochemical performance of thick electrodes is constrained by ion and electron transport as well as fast capacity degradation. Here, we report a thermally induced phase separation (TIPS) process for fabricating thick Li-ion battery electrodes, which incorporates the electrolyte directly in the electrode and alleviates the need to dry the electrode. The proposed TIPS process creates a bicontinuous electrolyte and electrode network with excellent ion and electron transport, respectively, and consequently achieves better rate performance. Using this process, electrodes with areal capacities of more than 30 mAh/cm2 are demonstrated. Capacity retentions of 87% are attained over 500 cycles in full cells with 1-mm-thick anodes and cathodes. Finally, we verified the scalability of the TIPS process by coating thick electrodes continuously on a pilot-scale roll-to-roll coating tool.
Publisher
National Academy of Sciences
Subject
/ Lithium
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