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Clarification of the Effects of Oxygen Containing Functional Groups on the Pore Filling Behavior of Discharge Deposits in Lithium-Air Battery Cathodes Using Surface-Modified Carbon Gels
| Title: | Clarification of the Effects of Oxygen Containing Functional Groups on the Pore Filling Behavior of Discharge Deposits in Lithium-Air Battery Cathodes Using Surface-Modified Carbon Gels |
| Authors: | Nagaishi, Shintaroh Browse this author | | Iwamura, Shinichiroh Browse this author →KAKEN DB | | Ishii, Takafumi Browse this author | | Mukai, Shin R. Browse this author →KAKEN DB |
| Keywords: | Lithium-air battery | | temperature programmed desorption | | mesoporous carbon | | oxygen containing functional groups |
| Issue Date: | 9-Feb-2023 |
| Publisher: | American Chemical Society |
| Journal Title: | Journal of physical chemistry c |
| Volume: | 127 |
| Issue: | 5 |
| Start Page: | 2246 |
| End Page: | 2257 |
| Publisher DOI: | 10.1021/acs.jpcc.2c08443 |
| Abstract: | In lithium-air batteries (LABs), controlling the characteristics of the Li2O2 deposited during discharging can lead to the reduction of the large overpotential required for charging. The large overpotential is one of the most significant problems that needs to be solved to improve the cycle performance of LABs. Here, we focused on the effects of functional groups in the cathode carbon on the characteristics of the Li2O2 deposited during discharging and the cathode performance of LABs. In this study, 4 types of carbon gels (CGs) were prepared using different treatment methods to modify their surface properties. The types and amounts of oxygencontaining functional groups (OCFGs) existing within the CGs were clarified along with the number of edge H's by a high-sensitivity temperature-programmed desorption (TPD) technique. The results of N-2 adsorption analysis of discharged CGs suggested that, by increasing the number of OCFGs from 0.40 to 1.80 mmol g(-1) through acid treatment, the ratio of Li2O2 deposited within the mesopores of the porous carbon particles can be increased from 1% to 60%. This significant change in the manner of Li2O2 deposition led to the reduction of the charging overpotential. Side reactions that are thought to deteriorate cycle performance tended to proceed in CGs having a large number of OCFGs. This negative effect could be reduced by removing carboxyl groups in the CGs through simple heat treatment at 300 ? in an inert atmosphere. Our study clarified the critical roles of OCFGs in the cathode during the discharging and charging of LABs. The obtained knowledge can be utilized for the development of a high-performance cathode for LABs. |
| Rights: | This document is the Accepted Manuscript version of a Published Work that appeared in final form in Journal of Physical Chemistry C, copyright © American Chemical Society after peer review and technical editing by the publisher. To access the final edited and published work see https://pubs.acs.org/articlesonrequest/AOR-YIP6RYS9TTTRM46I5T4P. |
| Type: | article (author version) |
| URI: | http://hdl.handle.net/2115/91076 |
| Appears in Collections: | 工学院・工学研究院 (Graduate School of Engineering / Faculty of Engineering) > 雑誌発表論文等 (Peer-reviewed Journal Articles, etc)
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Submitter: 岩村 振一郎
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