Design of Inorganic–Organic Hydrophobic Coating on Zn Anode Realizes Highly Reversible and Dendrite‐Free Zn‐Ion Batteries

Design of Inorganic–Organic Hydrophobic Coating on Zn Anode Realizes Highly Reversible and Dendrite‐Free Zn‐Ion Batteries

The zinc‐ion battery (ZIB) has attracted wide attention due to its environmental protection, abundant reserves, and desirable theoretical capacity. However, the application of ZIBs is limited by the dendrite growth and side reactions on the Zn anode. Herein, a boron microparticles and polyvinylidene...

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Veröffentlicht in:Energy technology (Weinheim, Germany) Germany), 2023-03, Vol.11 (3), p.n/a
Hauptverfasser: Wang, Yuan-Yi, Tian, Chen-Yang, Zhang, Dong-Ting, Zhao, Bei, Wang, Ya-Qin, Liu, Mao-Cheng
Format: Artikel
Sprache:eng
Schlagworte:
Anodic coatings
Batteries
Boron
Dendrites
Environmental protection
hydrophobic modified layers
Hydrophobicity
Microparticles
Polyvinylidene fluorides
side reactions inhibition
stable Zn anodes
uniform Zn2+ flux
Zinc
zinc-ion batteries
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Zusammenfassung:The zinc‐ion battery (ZIB) has attracted wide attention due to its environmental protection, abundant reserves, and desirable theoretical capacity. However, the application of ZIBs is limited by the dendrite growth and side reactions on the Zn anode. Herein, a boron microparticles and polyvinylidene fluoride (PVDF) composite modified layer (B‐PVDF) is constructed on the surface of a Zn anode, and a Zn anode with hydrophobic coating is obtained (B‐PVDF@Zn). The hydrophobic PVDF modified layer prevents the direct contact between H2O molecules and Zn anode, while boron microparticles guide the flux of Zn2+; thus, dendrite growth and side reactions are concurrently inhibited. And B‐PVDF@Zn//B‐PVDF@Zn symmetric battery maintains a stable overpotential (
ISSN:2194-4288
2194-4296
DOI:10.1002/ente.202201216