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Layered manganese dioxide nanoflowers with Cu2+and Bi3+ intercalation as high-performance cathode for aqueous zinc-ion battery.

Journal of Colloid and Interface Science, 2022
For aqueous zinc ion batteries (AZIBs), birnessite MnO2 (δ-MnO2) has been intensively used as one of the most potential cathode materials due to its layered structure, which is conducive to reversible insertion/extraction of zinc ions.
Fengni Long   +7 more
semanticscholar   +1 more source

Recent Progress in the Electrolytes of Aqueous Zinc‐Ion Batteries

Chemistry – A European Journal, 2019
AbstractRechargeable aqueous zinc‐ion batteries (ZIBs) have garnered tremendous attention in the field of next energy storage devices due to their high safety, low cost, abundant resources, and eco‐friendliness. As an important component of the zinc‐ion battery, the electrolyte plays a vital role in the electrochemical properties, since it will provide
Shuo Huang   +3 more
openaire   +2 more sources

Suppressing Manganese Dissolution in Potassium Manganate with Rich Oxygen Defects Engaged High‐Energy‐Density and Durable Aqueous Zinc‐Ion Battery

Advanced Functional Materials, 2019
The manganese dissolution leading to sharp capacity decline as well as the sluggish reaction kinetic are still major issues for manganese‐based materials as aqueous zinc‐ion batteries (ZIBs) cathodes. Here, a potassium‐ion‐stabilized and oxygen‐defect K0.
Guozhao Fang   +8 more
semanticscholar   +1 more source

Electrochemically induced cationic defect in MnO intercalation cathode for aqueous zinc-ion battery

, 2020
The Mn dissolution is a key issue in the application of high-energy-density manganese-based materials, but the use of Mn dissolution to unlock the electrochemical activity of electrode materials is rarely achieved.
Chuyu Zhu   +9 more
semanticscholar   +1 more source

Understanding the Design Principles of Advanced Aqueous Zinc‐Ion Battery Cathodes: From Transport Kinetics to Structural Engineering, and Future Perspectives

Advanced Energy Materials, 2020
Rechargeable aqueous zinc‐ion batteries (AZIBs) have attracted extensive attention and are considered to be promising energy storage devices, owing to their low cost, eco‐friendliness, and high security.
Bo Yong   +5 more
semanticscholar   +1 more source

Electrolyte Dynamics Engineering for Flexible Fiber-Shaped Aqueous Zinc-Ion Battery with Ultralong Stability.

Nano letters (Print), 2021
Flexible aqueous zinc-ion batteries (ZIBs) are considered as promising energy storage devices for wearable electronics due to their cost-effectiveness, environmental friendliness, and high theoretical energy density.
Yufei Lu   +7 more
semanticscholar   +1 more source

A Robust Hydrogel Electrolyte with Ultrahigh Ion Transference Number Derived from Zincophilic “Chain‐Gear” Network Structure for Dendrite‐Free Aqueous Zinc Ion Battery

Advanced Functional Materials
As a promising energy storage device, an aqueous zinc ion battery (AZIB) still suffers dendrite growth, hydrogen evolution, and corrosion. Hydrogel electrolyte solves the above issues to some extent.
Miao Sun   +3 more
semanticscholar   +1 more source

Challenges and strategies of zinc anode for aqueous zinc-ion batteries

Materials Chemistry Frontiers, 2021
The obstacles of dendrite growth, hydrogen evolution, corrosion and passivation of the zinc anode seriously restrict the cycling stability of aqueous zinc-ion batteries which possess high safety and low cost.
Weixin He   +6 more
openaire   +1 more source

Liquid Alloy Interlayer for Aqueous Zinc-Ion Battery

, 2021
Ameliorating the interfacial issues of the zinc anode, particularly dendrite growth and electrode corrosion, is imperative for rechargeable zinc metal batteries.
Cheng Liu   +14 more
semanticscholar   +1 more source

Unlocking Double Redox Reaction of Metal-Organic Framework for Aqueous Zinc-Ion Battery.

Angewandte Chemie
Metal-organic frameworks (MOFs) show wide application as the cathode of aqueous zinc-ion batteries (AZIBs) in the future owning to their high porosity, diverse structures, abundant species, and controllable morphology. However, the low energy density and
Shenzhen Deng   +4 more
semanticscholar   +1 more source

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