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A Review on 3D Zinc Anodes for Zinc Ion Batteries
Small Methods, 2022AbstractZinc ion batteries (ZIBs) have been gradually developed in recent years due to their abundant resources, low cost, and environmental friendliness. Therefore, ZIBs have received a great deal of attention from researchers, which are considered as the next generation of portable energy storage systems.
Na Guo +12 more
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Revitalizing zinc-ion batteries with advanced zinc anode design
Nanoscale Horizons, 2023This review focus on the rational design of the highly reversible zinc anode for high-performance aqueous zinc-ion batteries. The design concepts are expected to be applied to other types of high-performance aqueous energy storage systems.
Shuwei Chen +9 more
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Electrodeposited Zinc-Based Films as Anodes for Aqueous Zinc Batteries
ACS Applied Materials & Interfaces, 2020In the past thirty years, there has been significant development in the search for alternative energy sources such as secondary battery systems. Zinc (fourth-most mined material) has attracted much attention due to its abundance, low-cost, and recyclability. More-over, as Zinc-based batteries can be manufactured with aqueous-based electrolytes, this
Matthew Fayette +4 more
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Journal of Applied Chemistry, 1958
AbstractLaboratory and full‐scale trials of zinc anodes have shown that the presence of small amounts of aluminium (0.5–1.0%) gives improved performance and that addition also of 0.25–0.5% of silicon is more effective. The detrimental effect of iron is overcome by these additions.
J. T. Crennell, W. C. G. Wheeler
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AbstractLaboratory and full‐scale trials of zinc anodes have shown that the presence of small amounts of aluminium (0.5–1.0%) gives improved performance and that addition also of 0.25–0.5% of silicon is more effective. The detrimental effect of iron is overcome by these additions.
J. T. Crennell, W. C. G. Wheeler
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Reconstructing the Anode Interface and Solvation Shell for Reversible Zinc Anodes
ACS Applied Materials & Interfaces, 2023The attractive advantages of the Zn metal anode and water-based electrolyte, such as inherent safety and low cost, endow the zinc-ion batteries (ZIBs) with great potential in the future energy storage market. However, the severe surface side reactions and dendrites affect the service lifespan and electrochemical performance of ZIBs.
Dongdong Zhang +6 more
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Anodic Oxidation of Zinc Phosphide
Japanese Journal of Applied Physics, 1986Initial stages of a native oxidation on Zn3P2 by anodization have been investigated for the first time using 3% tartaric acid/propylene glycol electrolyte. A constant-current anodization is found to be superior to a constant-voltage anodization because of the rapid growth of the initial stage in the constant-voltage mode in view of controlling thin ...
Toshikazu Suda +2 more
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Hydrophobic Organic‐Electrolyte‐Protected Zinc Anodes for Aqueous Zinc Batteries
Angewandte Chemie International Edition, 2020AbstractAqueous Zn batteries are promising energy‐storage devices. However, their lifespan is limited by irreversible Zn anodes owing to water decomposition and Zn dendrite growth. Here, we separate aqueous electrolyte from Zn anode by coating a thin MOF layer on anode and filling the pores of MOF with hydrophobic Zn(TFSI)2‐tris(2,2,2‐trifluoroethyl ...
Longsheng Cao +4 more
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Zinc anode battery rechargeable technology
2014 IEEE NewNEB DC Utility Power Conference and Exhibition (NewNEB), 2014Urban Electric Power (UEP) is commercializing new energy storage products based on recent innovations in zinc anode rechargeable battery technology developed at the City University of New York’s (CUNY) Energy Institute. The zinc anode batteries utilize a unique combination of enhanced performance, extended lifetime and lowcost abundant materials ...
Alexander Couzis, Jack Feinstein
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