Please use this identifier to cite or link to this item: http://dspace.aiub.edu:8080/jspui/handle/123456789/919
Title: Triggering the theoretical capacity of Na1. 1V3O7. 9 nanorod cathode by polypyrrole coating for high-energy zinc-ion batteries
Authors: Islam, Saiful
Lee, Seunggyeong
Lee, Seulgi
Alfaruqi, Muhammad Hilmy
Sambandam, Balaji
Mathew, Vinod
Hwang, Jang-Yeon
Kim, Jaekook
Keywords: NVO, ZIB
Zinc ion batteries
Issue Date: 18-May-2022
Publisher: Elsevier
Abstract: The exploration of advanced cathode materials for aqueous rechargeable zinc-ion batteries (ZIBs) is currently a major research topic. In this study, we propose the microwave-assisted hydrothermal synthesis of polypyrrole (PPy)-coated Na1.1V3O7.9 (P-NVO) nanorods for the first time as a high-energy and high-power cathode material for ZIBs. The highly conductive PPy surface-coating layer is significant to enhance the electronic conductivity and Zn2+ diffusion kinetics, leading to utilize the V3+/V4+/V5+ multiple redox reactions of the NVO cathode in ZIBs. Compared to the NVO cathode, therefore, the P-NVO cathode offers higher discharge capacity, power capability and cycling stability; in particular, PPy coating triggers the full theoretical capacity of the NVO cathode (527 mAh g−1 with ∼ 3 mol Zn insertion per formula unit) and directly reflects a superior energy density of 408 Wh kg−1. Even at a high current density of 6000 mA g−1, the P-NVO cathode shows unprecedented cycling stability over 1100 cycles without capacity loss. Galvanostatic intermittent titration technique, cyclic voltammetry, in situ X-ray diffraction, and ex situ X-ray absorption near edge structure analyses are combined to verify the superior Zn storage mechanism of the P-NVO cathode.
URI: http://dspace.aiub.edu:8080/jspui/handle/123456789/919
ISSN: 1385-8947 ISSN
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