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Iodine, found in seawater (55 μg L −1), is a promising material for zinc-iodine batteries due to its high theoretical ...
Iodine with high abundance in seawater (55 μg L −1) is highly promising to fabricate zinc-iodine batteries due to high theoretical capacity (211 mAh g −1) and appropriate redox potential (0. ...
Dye-sensitized solar cells (DSCs) have achieved impressive conversion efficiencies for solar energy of over 11% with an electrolyte that contains triiodide/iodide as a redox couple. Although ...
The PV-driven redox flow battery can reportedly achieve a maximum solar-to-output electricity efficiency of 3.11% during a 36-hour period. The system incorporates a 25 cm2 heterojunction ...
Activating and stabilizing a reversible four electron redox reactions of I‐/I+ for aqueous Zn‐iodine battery Journal: Angewandte Chemie International Edition ...
Aqueous zinc-ion batteries (ZIBs) have gained attention for their safety, abundance, and environmental benefits. Iodine, found in seawater (55 μg L −1), is a promising material for zinc-iodine ...