Tailoring Sodium Iron Hexacyanoferrate/Carbon Nanotube Arrays with 3D Networks for Efficient Sodium Ion Storage

Tailoring Sodium Iron Hexacyanoferrate/Carbon Nanotube Arrays with 3D Networks for Efficient Sodium Ion Storage

Sodium iron hexacyanoferrate (FeHCF), as Prussian blue, is a promising cathode for sodium ion batteries (SIBs) on account of its open framework structure. Here, FeHCF nanocubes anchored on carbon nanotube (CNT) arrays (FeHCF/CNTs-CC) as integrated electrodes for SIBs have been synthesized via the co...

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Veröffentlicht in:Journal of electronic materials 2023-06, Vol.52 (6), p.3517-3525
Hauptverfasser: He, Linxuan, Ruan, Lingfeng, Yao, Weilin, Cai, Chen, Chen, Zihang, Chang, Xinhao, Shi, Juntao, Liu, Tiancun, Shen, Shenghui, Yao, Zhujun, Yang, Yefeng
Format: Artikel
Sprache:eng
Schlagworte:
Advanced Metal Ion Batteries
Arrays
Carbon
Carbon nanotubes
Characterization and Evaluation of Materials
Chemical synthesis
Chemical vapor deposition
Chemistry and Materials Science
Electrodes
Electrolytes
Electronics and Microelectronics
Ethanol
Instrumentation
Ion exchange
Ion storage
Iron
Laboratories
Materials Science
Metal oxides
Microscopy
Optical and Electronic Materials
Oxidation
Pigments
Sodium
Sodium-ion batteries
Solid State Physics
Textiles
Topical Collection: Advanced Metal Ion Batteries
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Zusammenfassung:Sodium iron hexacyanoferrate (FeHCF), as Prussian blue, is a promising cathode for sodium ion batteries (SIBs) on account of its open framework structure. Here, FeHCF nanocubes anchored on carbon nanotube (CNT) arrays (FeHCF/CNTs-CC) as integrated electrodes for SIBs have been synthesized via the combination of chemical vapor deposition, immersion–oxidation, and single-iron-source methods. CNT arrays loaded on carbon cloth link FeHCF nanocubes and provide abundant pathways for electrons, as well as a large surface area for sodium ion exchange at the surface of the electrode and electrolyte to facilitate electrochemical kinetics. With the assistance of CNT arrays, FeHCF/CNTs-CC display outstanding high-rate capabilities (135 mA h g −1 /0.1 A g −1 and 90 mA h g −1 /2 A g −1 ), and good cycling stability with a capacity retention of 85% after 1000 cycles at 0.5 A g −1 . Graphical Abstract
ISSN:0361-5235
1543-186X
DOI:10.1007/s11664-023-10337-6