Yaling Ji scite author profile

Yaling Ji

2Publications

1Citation Statement Received

74Citation Statements Given

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Zhejiang Sci-Tech University

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Improved Interface Stability and Zinc‐Ions Distribution Achieved by Functional Protective Layer Containing Abundant Oxygen Sites and Regular Channels for Long‐Life Zinc‐Metal Anodes

Zhang

liu

et al. 2022

Batteries & Supercaps

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Aqueous zinc (Zn)-ion batteries (AZIBs) have attracted much attention for the high safety, economy and nontoxic property, but further practical applications are still hindered due to the severe interfacial corrosion and annoying dendrite growth. Herein, a functional protective layer (FPL) containing abundant oxygen sites and regular channels is proposed as the surface coating to stabilize the Zn-metal anode. Specifically, transferred free water molecules and mitigated Zn-ions can be attracted by these polar oxygen sites, beneficially reliving corrosion behavior, reducing side reactions and inducing uniform Zn deposition. Furthermore, the cross-linked structure with opening channels of FPL benefits electrolyte to quickly arrive the electrode surface and maintain the superior movement of Znions. As a result, a superior cycling performance with high stability of 450 h at 5 mA cm À 2 and excellent rate behavior have been endowed by Zn electrode loading FPL. In the exploration of practical utilization, full battery consisting of Zn@FPL anode and cathode adopting commercial MnO 2 powder also exhibits an outstanding capacity retention of 98.9 % after 300 cycles at 0.5 A g À 1 . The proposed strategy of constructing a protective layer with functional sites and opening structure shows a good guiding significance for protecting Zn-metal anode.

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Dispersed Zn Nucleation and Growth Induced by Functional Nano-TiO2 Particles for a Stable Zn Metal Anode

Liu

You

et al. 2022

J. Electron. Mater.

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Yaling Ji

Improved Interface Stability and Zinc‐Ions Distribution Achieved by Functional Protective Layer Containing Abundant Oxygen Sites and Regular Channels for Long‐Life Zinc‐Metal Anodes

Dispersed Zn Nucleation and Growth Induced by Functional Nano-TiO2 Particles for a Stable Zn Metal Anode

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