zinc ion batteriessolid electrolyte interfaceelectrodeelectrolyteseparatorAqueous zinc ion batteries (ZIBs) are prospective next‐generation energy storage device candidates owing to resource abundance, affordability, eco‐friendliness, and safety. The solid‐electrolyte interface (SEI) produced in a ZIB by ...
Zinc-ion BatteriesSolid Electrolyte InterfaceDissolutionThe instability of the solid electrolyte interface (SEI) is a critical challenge for the zinc metal anodes, leading to an erratic electrode/electrolyte interface and hydrogen evolution reaction (HER), ultimately resulting in anode failure. This study...
In recent years, research on ZBRBs has become complete and extensive, and the reaction mechanism of zinc-ion batteries has been gradually unveiled. Fig. 1(a) records the publications of ZBRBs reported in recent years. It can be seen that more and more researches have been put into ZBRBs,...
surface (020), leading to improved Zn2+intercalation kinetics, fast electrolyte penetration, and high process structural stability during insertion/extraction. Therefore, this new PVP-VS4structure exhibits excellent electrochemical performance as the cathode of Zn-ion batteries, with a discharge specific ...
The SEI-forming electrolyte also allows the reversible operation of an anode-free pouch cell of Ti||ZnxVOPO4 at 100% depth of discharge for 100 cycles, thus establishing aqueous zinc batteries as viable cell systems for practical applications....
Rechargeable aqueous zinc-ion batteries are a promising candidate for next-generation energy storage devices. However, their practical application is limited by the severe safety issue caused by uncontrollable dendrite growth on zinc anodes. Here we develop faceted titanium dioxide with relatively low zin...
Aqueous zinc-ion batteries (AZIBs) have been getting lots of attention in the field of large scale energy storage owing to their low cost, large capacity and excellent safety. However, Zn anodes have serious dendritic growth and corrosion hydrogen evolution issues, which hinder their further appli...
Finally, the outlook and perspective on the current issues and future directions in the field of electrolyte additive engineering are presented for next‐generation battery technologies beyond the conventional Li‐ion batteries.求助该文献 最长约 10秒,即可获得该文献文件 ...
This was possible due to the reduced number of “free water” molecules in WiSE and to the formation of a fluorinated-based SEI on the electrode surface [23]. This “water-in salt” concept was rapidly extended from aqueous Li-ion batteries to other aqueous batteries, including AZMBs [24]...
Li-growth and SEI engineering for anode-free Li-metal rechargeable batteries: a review of current advances Energy Storage Mater. (2023) W.Liu β-MnO2 with proton conversion mechanism in rechargeable zinc ion battery J. Energy Chem. (2021) ...