Issue 1, 2019

Enhancing potassium-ion battery performance by defect and interlayer engineering

Abstract

Defect and interlayer engineering is applied to exploit the large van der Waals gaps of transition metal dichalcogenides for potassium-ion batteries (KIBs). As a demonstrator, MoS2 nanoflowers with expanded interlayer spacing and defects in the basal planes are used as KIB anodes in the voltage range of 0.5–2.5 V, where an intercalation reaction rather than a conversion reaction takes place to store K-ions in the van der Waals gaps. The nanoflowers show enhanced K-storage performance compared to the defect-free counterpart that has a pristine interlayer spacing. Kinetic analysis verifies that the K-ion diffusion coefficient and surface charge storage are both enhanced in the applied voltage range of the intercalation reaction. The collective effects of expanded interlayer spacing and additionally exposed edges induced by the in-plane defects enable facile K-ion intercalation, rapid K-ion transport and promoted surface K-ion adsorption simultaneously.

Graphical abstract: Enhancing potassium-ion battery performance by defect and interlayer engineering

Supplementary files

Article information

Article type
Communication
Submitted
13 Sep 2018
Accepted
09 Oct 2018
First published
09 Oct 2018

Nanoscale Horiz., 2019,4, 202-207

Enhancing potassium-ion battery performance by defect and interlayer engineering

Y. Xu, F. Bahmani, M. Zhou, Y. Li, C. Zhang, F. Liang, S. H. Kazemi, U. Kaiser, G. Meng and Y. Lei, Nanoscale Horiz., 2019, 4, 202 DOI: 10.1039/C8NH00305J

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