Opportunities and challenges of conversion type cathodes in zinc sulfur and zinc iodine batteries
Wenfang Li, Wenting Kong, Benjamin Tawiah, Hao Jia

TL;DR
This paper reviews the potential and challenges of using conversion-type cathodes in zinc-sulfur and zinc-iodine batteries to improve energy storage performance.
Contribution
The paper provides a focused review on reaction mechanisms, recent advances, and challenges in conversion-type cathodes for Zn-S and Zn-I2 batteries.
Findings
Conversion-type cathodes offer higher energy densities compared to traditional insertion-based cathodes.
Zn-S and Zn-I2 systems face challenges related to structural stability and reaction reversibility.
Engineered solutions and innovations are being explored to address these limitations.
Abstract
Conventional cathode materials for zinc-ion batteries (ZIBs) predominantly rely on ion-insertion electrochemistry, which inherently limits their specific capacity and restricts the full realization of ZIBs’ performance potential. In contrast, cathode materials based on conversion reactions offer a promising pathway toward achieving higher energy densities. Among them, zinc-sulfur (Zn-S) and zinc-iodine (Zn-I2) batteries have attracted considerable attention for their commercial viability, yet targeted reviews addressing their reaction mechanisms, recent advances, and current challenges remain relatively scarce. To address this gap, this review provides a concise overview of the reaction mechanisms and battery configurations pertinent to conversion-type cathodes in Zn-S and Zn-I2 systems. Furthermore, it critically examines the fundamental physicochemical and structural challenges…
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Taxonomy
TopicsAdvanced battery technologies research · Advancements in Battery Materials · Advanced oxidation water treatment
