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JOURNAL ARTICLE

Carbon‐Encapsulated Tube‐Wire Co3O4/MnO2 Heterostructure Nanofibers as Anode Material for Sodium‐Ion Batteries

Wenming ZhangZiwei YueWenfang MiaoSichen LiuChaochao FuLing LiZisheng ZhangHong Wang

Year: 2018 Journal:   Particle & Particle Systems Characterization Vol: 35 (9)   Publisher: Wiley
DOI: 10.1002/ppsc.201800138
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Abstract

Abstract This study presents a general approach for the synthesis of carbon‐encapsulated wire‐in‐tube Co 3 O 4 /MnO 2 heterostructure nanofibers (Co 3 O 4 /MnO 2 @C) via electrospinning followed by calcination. The as‐synthesized Co 3 O 4 /MnO 2 @C is investigated as the sodium‐ion batteries anode material, which not only exhibits a high reversible capacity of 306 mAh g −1 at 100 mA g −1 over 200 cycles, but also shows a cycling stability of 126 mAh g −1 after 1000 cycles at a high current density of 800 mA g −1 . The excellent electrochemical performance can be ascribed to the contribution from carbon‐encapsulated outer‐tube Co 3 O 4 and inner‐wire MnO 2 heterostructures, which offer a large internal space and good electrical conductivity. The present work can be helpful in providing new insights into heterostructures for sodium‐ion batteries and other applications.

Keywords:
Anode Materials science Calcination Electrochemistry Heterojunction Carbon nanofiber Chemical engineering Electrospinning Carbon fibers Current density Nanofiber Sodium Nanotechnology Electrode Carbon nanotube Catalysis Optoelectronics Composite material Composite number Chemistry Metallurgy

Metrics

27
Cited By
1.60
FWCI (Field Weighted Citation Impact)
52
Refs
0.85
Citation Normalized Percentile
Is in top 1%
Is in top 10%

Citation History

Topics

Advancements in Battery Materials
Physical Sciences →  Engineering →  Electrical and Electronic Engineering
Supercapacitor Materials and Fabrication
Physical Sciences →  Materials Science →  Electronic, Optical and Magnetic Materials
Advanced battery technologies research
Physical Sciences →  Engineering →  Electrical and Electronic Engineering

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