Highly Reversible and Dendrite-Free Zinc Anodes Enabled by PEDOT Nanowire Interfacial Layers for Aqueous Zinc-Ion Batteries.

ACS Appl Mater Interfaces

Key Laboratory of Applied Surface and Colloid Chemistry, MOE, Shaanxi Engineering Lab for Advanced Energy Technology, Shaanxi Key Laboratory for Advanced Energy Devices, School of Materials Science and Engineering, Shaanxi Normal University, 620 West Chang'an Street, Xi'an, Shaanxi 710119, China.

Published: August 2024

The aqueous zinc-ion batteries (ZIBs) have gained increasing attention because of their high specific capacity, low cost, and good safety. However, side reactions, hydrogen evolution reaction, and uncontrolled zinc dendrites accompanying the Zn metal anodes have impeded the applications of ZIBs in grid-scale energy storage. Herein, the poly(3,4-ethylenedioxythiophene) (PEDOT) nanowires as an interfacial layer on the Zn anode (Zn-PEDOT) are reported to address the above issues. Our experimental results and density functional theory simulation reveal that the interactions between the Zn and S atoms in thiophene rings of PEDOT not only facilitate the desolvation of hydrated Zn but also can regulate the diffusion of Zn along the thiophene molecular chains and induce the dendrite-free deposition of Zn along the (002) surface. Consequently, the Zn||Cu-PEDOT half-cell exhibits highly reversible plating/stripping behavior with an average Coulombic efficiency of 99.7% over 2500 cycles at 1 mA cm and a capacity of 0.5 mAh cm. A symmetric Zn-PEDOT cell can steadily operate over 1100 h at 1 mA cm (1 mAh cm) and 470 h at 10 mA cm (2 mAh cm), outperforming the counterpart bare Zn anodes. Besides, a Zn-PEDOT||VO full cell could deliver a specific capacity of 280 mAh g at 1 A g and exhibits a decent cycling stability, which are much superior to the bare Zn||VO cell. Our results demonstrate that PEDOT nanowires are one of the promising interfacial layers for dendrite-free aqueous ZIBs.

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http://dx.doi.org/10.1021/acsami.4c09699DOI Listing

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