Aqueous zinc-ion batteries (AZIBs) are emerging as a promising option for next-generation energy storage due to their abundant resources, affordability, eco-friendliness, and high safety levels. Manganese-based cathode materials, in particular, have garnered significant attention because of their high theoretical capacity and cost-effectiveness.
Zinc–manganese batteries are typically dry cells that can be bought from supermarkets. The evolution from non-rechargeable zinc–manganese dry cells to zinc–manganese flow batteries (Zn–Mn FBs) signifies a crucial step towards scalable and sustainable energy storage.
Among the array of prospective systems, aqueous zinc-iodine flow batteries (Zn-I FBs) manifest promising potential due to low cost, intrinsic safety, and high theoretical volumetric capacity (268 Ah L −1) (Fig. 1a) 11, 12, 13, 14, 15, 16.
Li X, Liu Q, Ma X, et al. Metal-organic framework derived tunnel structured MnO as the cathode material for high performance aqueous zinc-ion batteries. Journal of Materials Chemistry. A, Materials for Energy and Sustainability, 2023, 11 (36): 19566–19577 Zhao T, Wu H, Wen X, et al.
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Aqueous zinc-ion batteries (AZIBs) have emerged as a promising energy storage solution due to their eco-friendly aqueous electrolytes, high theoretical capacity of zinc anodes, and abundant global zinc reserves. …
Free QuoteAqueous zinc-ion batteries (AZIBs) have emerged as a promising energy storage solution due to their eco-friendly aqueous electrolytes, high theoretical capacity of zinc anodes, and abundant …
Free QuoteCation-regulated MnO 2 reduction reaction enabling long-term stable zinc–manganese flow batteries with high energy density †
Free QuoteAqueous zinc-ion batteries (AZIBs) are emerging as a promising option for next-generation energy storage due to their abundant resources, affordability, eco-friendliness, and …
Free QuoteWe report a high voltage aqueous hybrid zinc−manganese flow battery with double-membrane and three-electrolyte configuration, showing a high operating voltage of 2.75 V. To …
Free QuoteThe synergistic strategy achieves a near-neutral zinc-manganese flow system with a record accumulated capacity of 6510 mAh cm -2 (>200 cycles) at 30 mA cm -2, high areal capacity of …
Free QuoteAs demand for high-performance energy storage grows across grid and mobility sectors, multivalent ion batteries (MVIBs) have emerged as promising alternatives to lithium …
Free QuoteRecently, rechargeable aqueous zinc-based batteries using manganese oxide as the cathode (e.g., MnO2) have gained attention due to their inherent safety, environmental friendliness, …
Free QuoteCation-regulated MnO 2 reduction reaction enabling long-term stable zinc–manganese flow batteries with high energy density †
Free QuoteUnlike the alkaline electrolytes, a neutral flow system can effectively avoid the zinc dendrite issues. As a result, a Zn–Mn flow battery demonstrated a CE of 99% and an EE of …
Free QuoteUnlike the alkaline electrolytes, a neutral flow system can effectively avoid the zinc dendrite issues. As a result, a Zn–Mn flow battery demonstrated a CE of 99% and an EE of 78% at 40 mA cm −2 with more …
Free QuoteAqueous zinc-ion batteries (AZIBs) are emerging as a promising option for next-generation energy storage due to their abundant resources, affordability, eco-friendliness, and high safety levels. …
Free QuoteThis work proposes a novel strategy utilizing urea as a bifunctional anolyte additive for zinc‑manganese (Zn Mn) flow batteries to regulate dead zinc formation and mitigate …
Free QuoteAqueous zinc-iodine flow batteries show potential in large-scale storage but face water imbalance-induced instability. Here, authors develop a tailored ionic-molecular sieve …
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