Issue 70, 2019, Issue in Progress

Formation of toroidal Li2O2 in non-aqueous Li–O2 batteries with Mo2CTx MXene/CNT composite

Abstract

Due to the growing demand for high energy density devices, Li–O2 batteries are considered as a next generation energy storage system. The battery performance is highly dependent on the Li2O2 morphology, which arises from formation pathways such as the surface growth and the solution growth models. Thus, controlling the formation pathway is important in designing cathode materials. Herein for the first time, we controlled the Li2O2 formation pathway by using Mo2CTx MXene on a catalyst support. The cathode was fabricated by mixing the positively charged CNT/CTAB solution with the negatively charged Mo2CTx solution. After introducing Mo2CTx, important battery performance metrics were considerably enhanced. More importantly, the discharge product analysis showed that the functional groups on the surface of Mo2CTx inhibit the adsorption of O2 on the cathode surface, resulting in the formation of toroidal Li2O2 via the solution growth model. It was supported by density functional theory (DFT) calculations that adsorption of O2 on the Mo2CTx surface is implausible due to the large energy penalty for the O2 adsorption. Therefore, the introduction of MXene with abundant functional groups to the cathode surface can provide a cathode design strategy and can be considered as a universal method in generating toroidal Li2O2 morphology.

Graphical abstract: Formation of toroidal Li2O2 in non-aqueous Li–O2 batteries with Mo2CTx MXene/CNT composite

Supplementary files

Article information

Article type
Paper
Submitted
23 Sep 2019
Accepted
26 Nov 2019
First published
16 Dec 2019
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2019,9, 41120-41125

Formation of toroidal Li2O2 in non-aqueous Li–O2 batteries with Mo2CTx MXene/CNT composite

M. Wu, D. Y. Kim, H. Park, K. M. Cho, J. Y. Kim, S. J. Kim, S. Choi, Y. Kang, J. Kim and H. Jung, RSC Adv., 2019, 9, 41120 DOI: 10.1039/C9RA07699A

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