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An Investigation of the Highly Stable Interface in Zn²⁺/Mn²⁺-EG-Based Deep Eutectic Electrolytes for Zinc-Ion Batteries. [PDF]

Nanomaterials (Basel)
Hou J, Yan X, Mao X, Yao K, Xin X, Li M.
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Chemical Passivation Stabilizes Zn Anode

Advanced Materials, 2022
AbstractAqueous zinc ion batteries are an attractive option for grid‐scale energy storage, which is vital to the integration of renewable energy resources with the electric energy infrastructure. The cycling stability of aqueous ZIBs is determined by the electrochemical reversibility of Zn anode, which is often deteriorated by its corrosion and ...
Pan He, Jiaxing Huang
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Dynamic Biomolecular “Mask” Stabilizes Zn Anode

Small, 2022
AbstractZn anode is confronted with serious Zn dendrite growth and water‐induced parasitic reactions, which severely hinders the rapid development and practical application of aqueous zinc metal batteries (AZMBs). Herein, inspired by sodium hyaluronate (SH) biomolecules in living organisms featured with the functions of water retention, ion‐transport ...
Yanmei Li, Yingyu Wang, Yuan Xu, Wenhuai Tian, Jiawei Wang, Liwei Cheng, Honglei Yue, Runa Ji, Qiaonan Zhu, Hao Yuan, Hua Wang   +10 more
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Stable Zn Anodes with Triple Gradients

Advanced Materials, 2022
AbstractAqueous zinc‐ion batteries are highly desirable for sustainable energy storage, but the undesired Zn dendrites growth severely shortens the cycle life. Herein, a triple‐gradient electrode that simultaneously integrates gradient conductivity, zincophilicity, and porosity is facilely constructed for a dendrite‐free Zn anode. The simple mechanical
Yong Gao, Qinghe Cao, Jie Pu, Xin Zhao, Gangwen Fu, Jipeng Chen, Yuxuan Wang, Cao Guan   +7 more
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Nucleophilic Interfacial Layer Enables Stable Zn Anodes for Aqueous Zn Batteries

Nano Letters, 2022
Aqueous Zn batteries are emerging as promising energy storage devices. However, severe dendrite growth and side reactions of Zn anodes restrict their further development. Herein, we develop a nucleophilic interfacial layer (NIL) on Zn to achieve a highly stable Zn anode for rechargeable Zn batteries.
Yan Xu, Xinhua Zheng, Jifei Sun, Weiping Wang, Mingming Wang, Yuan Yuan, Mingyan Chuai, Na Chen, Hanlin Hu, Wei Chen   +9 more
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Peptide Gel Electrolytes for Stabilized Zn Metal Anodes

ACS Nano, 2023
The rechargeable aqueous Zn ion battery (AZIB) is considered a promising candidate for future energy storage applications due to its intrinsic safety features and low cost. However, Zn dendrites and side reactions (e.g., corrosion, hydrogen evolution reaction, and inactive side product (Zn hydroxide sulfate) formation) at the Zn metal anode have been ...
Yizhou Wang, Xinzhi Liu, Rui Ge, Manola Moretti, Jian Yin, Zhiming Zhao, Alexander U. Valle-Pérez, Hao Liu, Zhengnan Tian, Tianchao Guo, Yunpei Zhu, Charlotte A. E. Hauser, Husam N. Alshareef   +12 more
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Rationalized Electroepitaxy toward Scalable Single‐Crystal Zn Anodes

Advanced Materials, 2023
AbstractElectroepitaxy is recognized as an effective approach to prepare metal electrodes with nearly complete reversibility. Nevertheless, large‐scale manipulation is still not attainable owing to complicated interfacial chemistry. Here, the feasibility of extending Zn electroepitaxy toward the bulk phase over a mass‐produced mono‐oriented Cu(111 ...
Yiwen Su, Buhang Chen, Yingjie Sun, Zaikun Xue, Yuhan Zou, Dongzi Yang, Luzhao Sun, Xianzhong Yang, Chao Li, Yujia Yang, Xiuju Song, Wenyi Guo, Shixue Dou, Dongliang Chao, Zhongfan Liu, Jingyu Sun   +15 more
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