An economic bifunctional electrolyte additive for highly reversible zinc anode-Reference-Cited by-同舟云学术

An economic bifunctional electrolyte additive for highly reversible zinc anode

Published:2024-02 Issue: Volume:41 Page:101356
ISSN:2542-5293
Container-title:Materials Today Physics
language:en
Short-container-title:Materials Today Physics

Author:

Wei Chenchen,Zhou Yu,Wang Xiaolong,Qi Huimin,Li Xiaohui,Zou Ting,Wang Wenping,Yang Ze,Yu Ying^ORCID

Funder

Central China Normal University

National Key Research and Development Program of China

Fundamental Research Funds for the Central Universities

National Natural Science Foundation of China

Publisher

Elsevier BV

Reference62 articles.

1. Highly reversible Zn metal anodes realized by synergistically enhancing ion migration kinetics and regulating surface energy;Wang;Adv. Funct. Mater.,2022

2. Ultrafast zinc–ion–conductor interface toward high‐rate and stable zinc metal batteries;Yan;Adv. Energy Mater.,2021

3. Interfacial engineering of RuO2 for electrocatalytic decomposition of Li2CO3 in Li–CO2/O2 battery;Zhang;Mater. Today Phys.,2024

4. Unraveling the role of nitrogen‐doped carbon nanowires incorporated with MnO2 nanosheets as high performance cathode for zinc‐ion batteries;Li;Energy Environm. Mater.,2022

5. Oxygen vacancies-enriched Mn3O4 enabling high-performance rechargeable aqueous zinc-ion battery;Huang;Mater. Today Phys.,2021

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1. Asymmetric Zn-N4 atomic sites embedded hollow fibers as stable Zn anode for high-performance Zn-ion hybrid capacitor;Journal of Energy Chemistry;2024-10

2. Proton-driven bilateral interfacial chemistry and electrolyte structure reconstruction enable highly reversible zinc metal anodes;Energy Storage Materials;2024-06

3. Enabling stable aqueous Zn metal anodes using scandium acetate electrolyte additives;Journal of Materials Chemistry A;2024