Issue 31, 2022

Enhancing lithium/sodium-ion storage behaviors in a V2O5 nanosheet by freeze-drying

Abstract

A porous V2O5 nanosheet is synthesized via freeze-drying followed by a heat-treatment process. Observably, transmission electron microscopy and atomic force microscopy analysis indicate that a porous and thin layer microstructure is achieved with V2O5. Electrochemical measurement demonstrates that the as-obtained V2O5 exhibits evident advantage toward the sodium/lithium ion storage. When evaluated as a cathode for sodium ion batteries, the V2O5 nanosheet delivers an initial discharge capacity of 199.8 mA h g−1. Even after 200 cycles at 50 mA g−1, the V2O5 nanosheet can retain a capacity of 123.9 mA h g−1, which is 2.3 times higher than that of bulk V2O5. Cyclic voltammetry and electrochemical impedance spectroscopy analysis further confirm that this rationally-designed porous nanosheet can increase the electroactive sites for the redox reaction and shorten the pathway of charge transfer, consequently leading to an enhanced capacitive sodium ion storage behavior.

Graphical abstract: Enhancing lithium/sodium-ion storage behaviors in a V2O5 nanosheet by freeze-drying

Supplementary files

Article information

Article type
Paper
Submitted
08 Mar 2022
Accepted
27 Jun 2022
First published
28 Jun 2022

CrystEngComm, 2022,24, 5605-5613

Enhancing lithium/sodium-ion storage behaviors in a V2O5 nanosheet by freeze-drying

L. Wang, G. Shen, Y. Zhao, Y. Wang and Y. Zhao, CrystEngComm, 2022, 24, 5605 DOI: 10.1039/D2CE00320A

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