1. Mild oxidation regulating the surface of Mo2CTx MXene to enhance catalytic activity for low overpotential and long cycle life Li-CO2 batteries.
- Author
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Tian, Xue, Xu, Mengyao, Li, Yanze, Liu, Huan, Cao, Bin, Soomro, Razium Ali, Zhang, Peng, and Xu, Bin
- Subjects
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CATALYTIC activity , *CARBON sequestration , *LONGEVITY , *ELECTRIC batteries , *OVERPOTENTIAL , *LITHIUM cells , *CARBON dioxide - Abstract
[Display omitted] • Mo-based MXene is first applied as a cathode catalyst for Li-CO 2 batteries. • An innovative surface modification strategy, mild oxidation by CO 2 , is employed. • The catalyst optimizes the growth and decomposition of discharge products. • This MoO 2 @Mo 2 C-based Li-CO 2 battery outperforms most other MXene-based catalysts. The lithium-carbon dioxide (Li-CO 2) batteries hold promise for energy storage, given their capacity to capture and convert carbon dioxide (CO 2). However, the practical application of Li-CO 2 batteries continues to face substantial obstacles caused by sluggish CO 2 reduction/evolution kinetics, resulting in high overpotential and short lifespan. This work presents the fabrication of a highly effective MoO 2 @Mo 2 C heterostructure hybrid catalyst using a CO 2 oxidation strategy. This strategy integrated (in-situ) MoO 2 onto the surface of two-dimensional (2D) Mo 2 C MXene, enhancing catalytic activity while preserving 2D electron/ion pathways. As a result, the MoO 2 @Mo 2 C, when used as a catalyst in Li-CO 2 battery showcased a discharge capacity of 20790.8 mAh g−1 at a current density of 200 mA g−1. Notably, it achieved a long cycling life of 230 cycles at a cutoff capacity of 1000 mAh g−1 with a voltage gap as low as 1.85 V, which was significantly superior to that of a pristine Mo 2 CT x catalyst (3.61 V after twenty cycles). This work provides critical insights into the design of MXenes-based high-performance catalysts for advanced Li-CO 2 batteries. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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