Suppressing the Shuttle Effect of Aqueous Zinc–Iodine Batteries: Progress and Prospects
Mengyao Li, Juan Wu, Haoyu Li, Yude Wang

TL;DR
This paper reviews strategies to suppress the shuttle effect in aqueous zinc-iodine batteries to improve their performance and scalability.
Contribution
The paper systematically summarizes strategies to inhibit the shuttle effect in aqueous zinc-iodine batteries.
Findings
The shuttle effect causes cathode material loss and anode corrosion in zinc-iodine batteries.
Strategies to suppress the shuttle effect include cathode design, electrolyte regulation, separator modification, and anode protection.
The paper provides recommendations for improving the performance of aqueous zinc-iodine batteries.
Abstract
Aqueous zinc–iodine batteries are considered to be one of the most promising devices for future electrical energy storage due to their low cost, high safety, high theoretical specific capacity, and multivalent properties. However, the shuttle effect currently faced by zinc–iodine batteries causes the loss of cathode active material and corrosion of the zinc anodes, limiting the large-scale application of zinc–iodine batteries. In this paper, the electrochemical processes of iodine conversion and the zinc anode, as well as the induced mechanism of the shuttle effect, are introduced from the basic configuration of the aqueous zinc–iodine battery. Then, the inhibition strategy of the shuttle effect is summarized from four aspects: the design of cathode materials, electrolyte regulation, the modification of the separator, and anode protection. Finally, the current status of aqueous…
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Taxonomy
TopicsFlowering Plant Growth and Cultivation · Plant and animal studies · Botanical Studies and Applications
