K0.23V2O5 as a promising cathode material for rechargeable aqueous zinc ion batteries with excellent performance

Aqueous zinc ion battery is a new type of rechargeable battery developed in recent years, which have received extra attention due to the lower cost, higher safety, and more environmentally friendly. However, developing the suitable cathode materials for the insertion/extraction of Zn2+ is still majo...

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Bibliographic Details
Published in:Journal of alloys and compounds 2020-04, Vol.819, p.152971, Article 152971
Main Authors: Zhang, Wenwei, Tang, Chen, Lan, Binxu, Chen, Lineng, Tang, Wen, Zuo, Chunli, Dong, Shijie, An, Qinyou, Luo, Ping
Format: Article
Language:English
Subjects:
Aqueous zinc ion battery
Batteries
Cathode
Cathodes
Cosmetics industry
Diffusion rate
Electrode materials
Fast diffusion
Ion diffusion
Rechargeable batteries
Storage mechanism
Structural stability
Vanadium oxides
Zinc
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Summary:Aqueous zinc ion battery is a new type of rechargeable battery developed in recent years, which have received extra attention due to the lower cost, higher safety, and more environmentally friendly. However, developing the suitable cathode materials for the insertion/extraction of Zn2+ is still major challenge for aqueous zinc ion batteries as the strong electrostatic interaction between multivalent metal ions and host cathodes. In this work, a potassium vanadium oxide (K0.23V2O5) with tunnel structure has been prepared by hydrothermal synthesis and is firstly employed as cathode material for aqueous zinc ion batteries, which delivers an excellent structural stability and high capacity retention rate of 92.8% (103 mA h g−1) after 500 cycles at current density of 2.0 A g−1. In addition, the ion diffusion rate is as high as 1.88 × 10−9−2.6 × 10−8 cm2 S−1, which is much higher than most other cathode materials for aqueous zinc ion batteries. The outstanding performances demonstrate that K0.23V2O5 is a promising cathode for aqueous zinc ion batteries. •For the first time, the K0.23V2O5 cathode is applied for aqueous zinc ion batteries.•A larger voltage window (0.1–1.7 V) than most other aqueous zinc ion batteries.•The Zn2+ ion diffusion rate of K0.23V2O5 is as high as 1.88 × 10−9–2.6 × 10−8 cm2 S−1.•The insertion/extraction mechanism is different from the previous literature.•Proving that metal ions could enhance the performance of vanadium-based material.
ISSN:0925-8388
1873-4669
DOI:10.1016/j.jallcom.2019.152971