High-Donor Electrolyte Additive Enabling Stable Aqueous Zinc-Ion Batteries

TL;DR: Researchers develop a hybrid electrolyte with solvated carbon quantum dot clusters to achieve uniform Zn plating in zinc ion batteries, improving performance and safety by reducing dendrite growth and parasitic side reactions.

TL;DR: Design strategies for anti-freeze electrolytes in aqueous energy storage devices at low temperatures focus on addressing the issue of electrolyte freezing, which limits ion transport and reaction kinetics. The review explores the connection between HB interactions and the liquid-to-solid conversion process, categorizes design strategies, and proposes potential directions.

TL;DR: In this article , a multidimensional hydration inhibitor was proposed to restrain water-induced corrosion effects on Zn powder anode and achieve long cycle performance, which achieved high performance.

TL;DR: Aqueous electrolyte design innovations elevate energy and power density in multivalent metal-ion batteries by optimizing electrolyte concentration, additives, pH, and ligand effects, while mitigating side reactions and improving cation transport and ion conductivity.

TL;DR: A design strategy to homogenize zinc deposition by regulating the interfacial electric field and ion distribution during zinc nucleation and growth is proposed and can offer potential directions for the rational design of dendrite-free zinc anodes employed in aqueous zinc-ion batteries.

TL;DR: A side reaction-free and dendrite-free Zn electrode is developed, the effectiveness of which is also convincing in a MnO2 /ZnS@Zn full-cell with 87.6% capacity retention after 2500 cycles.

TL;DR: In this paper, a novel anode with a surface-preferred (002) crystal plane is provided, which enables a long cyclic life of more than 500 h and a high average coulombic efficiency of 97.71% for symmetric batteries.

TL;DR: In-situ spontaneously reducing/assembling strategy to assemble a thin and uniform MXene layer on the surface of Zn anode exhibits obviously low voltage hysteresis and excellent cycling stability with dendrite-free behaviors, ensuring the high capacity retention and low polarization potential in zinc-ion batteries.