In situ cross-linked carboxymethyl cellulose-polyethylene glycol binder for improving the long-term cycle life of silicon anodes in Li ion batteries
To increase the energy density of Li-ion batteries (LIBs), silicon has been widely studied due to its relative abundance and high theoretical specific capacity (∼3572 mAh g–1). However, silicon experiences drastic volume changes up to 300% associated with Li. Here, we report an in situ cross-linked...
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sg-ntu-dr.10356-1512982021-07-06T01:27:48Z In situ cross-linked carboxymethyl cellulose-polyethylene glycol binder for improving the long-term cycle life of silicon anodes in Li ion batteries Lee, Dongsoo Park, Hyunjung Goliaszewski, Alan Byeun, Yun-ki Song, Taeseup Paik, Ungyu School of Chemical and Biomedical Engineering Engineering::Chemical engineering Electrodes Silicon To increase the energy density of Li-ion batteries (LIBs), silicon has been widely studied due to its relative abundance and high theoretical specific capacity (∼3572 mAh g–1). However, silicon experiences drastic volume changes up to 300% associated with Li. Here, we report an in situ cross-linked carboxymethyl cellulose-polyethylene glycol (CMC-PEG) binder and its application to the silicon anode to improve cycle life. Through in situ cross-linking during the electrode drying process, the cross-linked CMC-PEG binder is simply prepared without an additional process. In particular, the cross-linked CMC-PEG binder is effective in enhancing cohesion between active materials and adhesion between active materials and a current collector. The silicon anode with the cross-linked CMC-PEG binder shows stable cycling performance with a capacity of ∼2000 mAh g–1 up to 350 cycles at 0.5 C. In terms of simplicity, this binder has potential to be used for silicon anodes and other electrodes experiencing volume expansion during cycling. This work was supported by funds from Ashland Specialty Ingredients and the “Human Resources Program in Energy Technology” of the Korea Institute of Energy Technology Evaluation and Planning (KETEP), a granted financial resource from the Ministry of Trade, Industry & Energy, Republic of Korea (No.20194010201890). 2021-07-06T01:27:48Z 2021-07-06T01:27:48Z 2019 Journal Article Lee, D., Park, H., Goliaszewski, A., Byeun, Y., Song, T. & Paik, U. (2019). In situ cross-linked carboxymethyl cellulose-polyethylene glycol binder for improving the long-term cycle life of silicon anodes in Li ion batteries. Industrial and Engineering Chemistry Research, 58(19), 8123-8130. https://dx.doi.org/10.1021/acs.iecr.9b00870 0888-5885 0000-0002-1174-334X 0000-0002-8206-9719 https://hdl.handle.net/10356/151298 10.1021/acs.iecr.9b00870 2-s2.0-85065879388 19 58 8123 8130 en Industrial and Engineering Chemistry Research © 2019 American Chemical Society. All rights reserved. |
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Engineering::Chemical engineering Electrodes Silicon Lee, Dongsoo Park, Hyunjung Goliaszewski, Alan Byeun, Yun-ki Song, Taeseup Paik, Ungyu In situ cross-linked carboxymethyl cellulose-polyethylene glycol binder for improving the long-term cycle life of silicon anodes in Li ion batteries |
| description |
To increase the energy density of Li-ion batteries (LIBs), silicon has been widely studied due to its relative abundance and high theoretical specific capacity (∼3572 mAh g–1). However, silicon experiences drastic volume changes up to 300% associated with Li. Here, we report an in situ cross-linked carboxymethyl cellulose-polyethylene glycol (CMC-PEG) binder and its application to the silicon anode to improve cycle life. Through in situ cross-linking during the electrode drying process, the cross-linked CMC-PEG binder is simply prepared without an additional process. In particular, the cross-linked CMC-PEG binder is effective in enhancing cohesion between active materials and adhesion between active materials and a current collector. The silicon anode with the cross-linked CMC-PEG binder shows stable cycling performance with a capacity of ∼2000 mAh g–1 up to 350 cycles at 0.5 C. In terms of simplicity, this binder has potential to be used for silicon anodes and other electrodes experiencing volume expansion during cycling. |
| author2 |
School of Chemical and Biomedical Engineering |
| author_facet |
School of Chemical and Biomedical Engineering Lee, Dongsoo Park, Hyunjung Goliaszewski, Alan Byeun, Yun-ki Song, Taeseup Paik, Ungyu |
| format |
Article |
| author |
Lee, Dongsoo Park, Hyunjung Goliaszewski, Alan Byeun, Yun-ki Song, Taeseup Paik, Ungyu |
| author_sort |
Lee, Dongsoo |
| title |
In situ cross-linked carboxymethyl cellulose-polyethylene glycol binder for improving the long-term cycle life of silicon anodes in Li ion batteries |
| title_short |
In situ cross-linked carboxymethyl cellulose-polyethylene glycol binder for improving the long-term cycle life of silicon anodes in Li ion batteries |
| title_full |
In situ cross-linked carboxymethyl cellulose-polyethylene glycol binder for improving the long-term cycle life of silicon anodes in Li ion batteries |
| title_fullStr |
In situ cross-linked carboxymethyl cellulose-polyethylene glycol binder for improving the long-term cycle life of silicon anodes in Li ion batteries |
| title_full_unstemmed |
In situ cross-linked carboxymethyl cellulose-polyethylene glycol binder for improving the long-term cycle life of silicon anodes in Li ion batteries |
| title_sort |
in situ cross-linked carboxymethyl cellulose-polyethylene glycol binder for improving the long-term cycle life of silicon anodes in li ion batteries |
| publishDate |
2021 |
| url |
https://hdl.handle.net/10356/151298 |
| _version_ |
1705151337653600256 |