In situ transmission electron microscopy observation of electrochemical process between Li–C nanocomposites and multilayer graphene
Portable power supplies, particularly lithium-ion batteries (LIBs), will play a key role in achieving sustainable development goals, and electrode active materials for the next generation of LIBs with higher energy density and longer life time is highly demanded. For this, in situ visualization of L...
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2024
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my.utm.1088092024-12-11T09:27:36Z http://eprints.utm.my/108809/ In situ transmission electron microscopy observation of electrochemical process between Li–C nanocomposites and multilayer graphene Wei, Ming Lin Suresh, Giri Gupta, Vikaskumar Pradeepkumar Tomida, Shota Oyama, Kento Yaakob, Yazid Asaka, Toru Sonoyama, Noriyuki Mohd. Yusop, Mohd. Zamri Tanemura, Masaki TP Chemical technology Portable power supplies, particularly lithium-ion batteries (LIBs), will play a key role in achieving sustainable development goals, and electrode active materials for the next generation of LIBs with higher energy density and longer life time is highly demanded. For this, in situ visualization of Li behavior during the charge/discharge process is essential, and transmission electron microscopy (TEM) will be promising for this purpose. Here, a quite simple experimental setup consisting of a newly developed Li–C nanocomposite film sputter-deposited onto Au nanoprotrusions at room temperature and graphene synthesized on a W probe at 500 °C for the in situ TEM observation of the battery reaction is proposed. The preservation of the metallic Li in the Li–C film that is transferred to TEM without using any transfer vessels under atmospheric conditions is confirmed by high resolution TEM before the in situ electrochemical process in TEM. After the one cycle of the in situ electrochemical process, the intercalation of Li ions into graphene (lithiation) is clearly observed. Thus, it is concluded that the metallic Li stored in the Li–C film works well as the anode active material in the electrochemical process for solid state LIBs, implying the developed in situ experimental system is promising. John Wiley and Sons Inc 2024 Article PeerReviewed Wei, Ming Lin and Suresh, Giri and Gupta, Vikaskumar Pradeepkumar and Tomida, Shota and Oyama, Kento and Yaakob, Yazid and Asaka, Toru and Sonoyama, Noriyuki and Mohd. Yusop, Mohd. Zamri and Tanemura, Masaki (2024) In situ transmission electron microscopy observation of electrochemical process between Li–C nanocomposites and multilayer graphene. Advanced Materials Technologies, 9 (5). NA-NA. ISSN 2365-709X http://dx.doi.org/10.1002/admt.202301564 DOI : 10.1002/admt.202301564 |
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TP Chemical technology Wei, Ming Lin Suresh, Giri Gupta, Vikaskumar Pradeepkumar Tomida, Shota Oyama, Kento Yaakob, Yazid Asaka, Toru Sonoyama, Noriyuki Mohd. Yusop, Mohd. Zamri Tanemura, Masaki In situ transmission electron microscopy observation of electrochemical process between Li–C nanocomposites and multilayer graphene |
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Portable power supplies, particularly lithium-ion batteries (LIBs), will play a key role in achieving sustainable development goals, and electrode active materials for the next generation of LIBs with higher energy density and longer life time is highly demanded. For this, in situ visualization of Li behavior during the charge/discharge process is essential, and transmission electron microscopy (TEM) will be promising for this purpose. Here, a quite simple experimental setup consisting of a newly developed Li–C nanocomposite film sputter-deposited onto Au nanoprotrusions at room temperature and graphene synthesized on a W probe at 500 °C for the in situ TEM observation of the battery reaction is proposed. The preservation of the metallic Li in the Li–C film that is transferred to TEM without using any transfer vessels under atmospheric conditions is confirmed by high resolution TEM before the in situ electrochemical process in TEM. After the one cycle of the in situ electrochemical process, the intercalation of Li ions into graphene (lithiation) is clearly observed. Thus, it is concluded that the metallic Li stored in the Li–C film works well as the anode active material in the electrochemical process for solid state LIBs, implying the developed in situ experimental system is promising. |
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Article |
| author |
Wei, Ming Lin Suresh, Giri Gupta, Vikaskumar Pradeepkumar Tomida, Shota Oyama, Kento Yaakob, Yazid Asaka, Toru Sonoyama, Noriyuki Mohd. Yusop, Mohd. Zamri Tanemura, Masaki |
| author_facet |
Wei, Ming Lin Suresh, Giri Gupta, Vikaskumar Pradeepkumar Tomida, Shota Oyama, Kento Yaakob, Yazid Asaka, Toru Sonoyama, Noriyuki Mohd. Yusop, Mohd. Zamri Tanemura, Masaki |
| author_sort |
Wei, Ming Lin |
| title |
In situ transmission electron microscopy observation of electrochemical process between Li–C nanocomposites and multilayer graphene |
| title_short |
In situ transmission electron microscopy observation of electrochemical process between Li–C nanocomposites and multilayer graphene |
| title_full |
In situ transmission electron microscopy observation of electrochemical process between Li–C nanocomposites and multilayer graphene |
| title_fullStr |
In situ transmission electron microscopy observation of electrochemical process between Li–C nanocomposites and multilayer graphene |
| title_full_unstemmed |
In situ transmission electron microscopy observation of electrochemical process between Li–C nanocomposites and multilayer graphene |
| title_sort |
in situ transmission electron microscopy observation of electrochemical process between li–c nanocomposites and multilayer graphene |
| publisher |
John Wiley and Sons Inc |
| publishDate |
2024 |
| url |
http://eprints.utm.my/108809/ http://dx.doi.org/10.1002/admt.202301564 |
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1818834052120051712 |
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13.222552 |