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Materials Technology
Advanced Performance Materials
Volume 35, 2020 - Issue 9-10: Future materials for energy conversion and storage
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Research Paper

Scalable and controlled synthesis of 2D nanoporous Co3O4 from bulk alloy for potassium ion batteries

Huiyu JiangKey Laboratory for Liquid-Solid Structural Evolution & Processing of Materials (Ministry of Education), School of Materials Science and Engineering, Shandong University, Jinan, ChinaView further author information
,
Yongling AnKey Laboratory for Liquid-Solid Structural Evolution & Processing of Materials (Ministry of Education), School of Materials Science and Engineering, Shandong University, Jinan, ChinaView further author information
,
Yuan TianKey Laboratory for Liquid-Solid Structural Evolution & Processing of Materials (Ministry of Education), School of Materials Science and Engineering, Shandong University, Jinan, ChinaView further author information
,
Jinkui FengKey Laboratory for Liquid-Solid Structural Evolution & Processing of Materials (Ministry of Education), School of Materials Science and Engineering, Shandong University, Jinan, ChinaCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0002-5683-849XView further author information
ORCID Icon &
Xuelei TianKey Laboratory for Liquid-Solid Structural Evolution & Processing of Materials (Ministry of Education), School of Materials Science and Engineering, Shandong University, Jinan, ChinaCorrespondence[email protected]
View further author information
Pages 594-599 | Received 23 Dec 2019, Accepted 14 Jan 2020, Published online: 24 Jan 2020
 
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ABSTRACT

Potassium has attracted enormous attention as the promising resourceful alternative to lithium for rechargeable batteries. However, the developing of high-energy electrode materials remains a key challenge for potassium-ion batteries (KIBs). Herein, 2D nanoporous cobaltosic oxide (Co3O4) is synthesised by scalable chemical dealloying methods from bulk Al–Co alloy. It is found that the morphology of Co3O4 can be controlled by adjusting the dealloying time. As anode materials for KIBs, the as prepared Co3O4 nanosheets delivered a reversible capacity of 417 mA h g−1 at a constant current density of 89 mA g−1 and a good capacity retention even after 300 cycles. The special 2D nanoporous structure is beneficial to buffer volume expansion and enhance ionic diffusion, which is accounted for the good electrochemical performance. The synthesis method and the special structure may be interesting for researchers in other fields such as supercapacitor, catalyst, and sensors.

Disclosure statement

No potential conflict of interest was reported by the authors.

Additional information

Funding

The work was supported by National Natural Science Foundation of China [No. 51972198], The State Key Program of National Natural Science of China [Nos. 61633015], The Project of the Taishan Scholar (ts201511004, tsqn201812002).

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