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Aqueous Zinc Batteries
Parasitic reactions and dendrites are tricky issues in aqueous zinc‐metal batteries. In article number 2303457, Anqiang Pan, Zhi Chang, and co‐workers report that the electric‐field induced by aligned dipoles can modulate the electrolyte configuration and transport behavior of zinc‐ions, thus eliminating side‐reactions and Zn dendrites.
Water‐induced parasitic reactions and uncontrolled dendritic Zn growth are long‐lasting tricky problems that severely hinder the development of aqueous zinc‐metal batteries. Those notorious issues are closely related to electrolyte configuration and zinc‐ion transport behavior. Herein, through constructing aligned dipoles induced electric‐field on Zn surface, both the solvation structure and transport...
The Zn metal anode is considered one of the most promising anode choices for aqueous Zn‐based batteries. Nevertheless, dendrites and intricate side reactions have hindered its usage. Herein, an elastic and anti‐corrosive interlayer is introduced to address the problem. The idiosyncratic dielectric behavior of amorphous and nanostructured silicon nitride (Si3N4) is utilized to manipulate the ion kinetics,...
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