Necklace-Like Structures Composed of Fe3N@C Yolk–Shell Particles as an Advanced Anode for Sodium-Ion Batteries

Zhen Li; Yongjin Fang; Jintao Zhang; Xiong Wen (David) Lou

doi:10.1002/adma.201800525

Necklace-Like Structures Composed of Fe₃N@C Yolk–Shell Particles as an Advanced Anode for Sodium-Ion Batteries

Zhen Li, Yongjin Fang, Jintao Zhang, Xiong Wen (David) Lou

Nanyang Technological University

Research output: Contribution to journal › Article › peer-review

185 Scopus citations

Abstract

It is of great importance to develop cost-effective electrode materials for large-scale use of Na-ion batteries. Here, a binder-free electrode based on necklace-like structures composed of Fe₃N@C yolk–shell particles as an advanced anode for Na-ion batteries is reported. In this electrode, every Fe₃N@C unit has a novel yolk–shell structure, which can accommodate the volumetric changes of Fe₃N during the (de)sodiation processes for superior structural integrity. Moreover, all reaction units are threaded along the carbon fibers, guaranteeing excellent kinetics for the electrochemical reactions. As a result, when evaluated as an anode material for Na-ion batteries, the Fe₃N@C nano-necklace electrode delivers a prolonged cycle life over 300 cycles, and achieves a high C-rate capacity of 248 mAh g⁻¹ at 2 A g⁻¹.

Original language	English
Article number	1800525
Journal	Advanced Materials
Volume	30
Issue number	30
DOIs	https://doi.org/10.1002/adma.201800525
State	Published - 26 Jul 2018
Externally published	Yes

Keywords

electrospinning
iron nitrides
sodium-ion batteries
yolk–shell structures

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title = "Necklace-Like Structures Composed of Fe3N@C Yolk–Shell Particles as an Advanced Anode for Sodium-Ion Batteries",

abstract = "It is of great importance to develop cost-effective electrode materials for large-scale use of Na-ion batteries. Here, a binder-free electrode based on necklace-like structures composed of Fe3N@C yolk–shell particles as an advanced anode for Na-ion batteries is reported. In this electrode, every Fe3N@C unit has a novel yolk–shell structure, which can accommodate the volumetric changes of Fe3N during the (de)sodiation processes for superior structural integrity. Moreover, all reaction units are threaded along the carbon fibers, guaranteeing excellent kinetics for the electrochemical reactions. As a result, when evaluated as an anode material for Na-ion batteries, the Fe3N@C nano-necklace electrode delivers a prolonged cycle life over 300 cycles, and achieves a high C-rate capacity of 248 mAh g−1 at 2 A g−1.",

keywords = "electrospinning, iron nitrides, sodium-ion batteries, yolk–shell structures",

author = "Zhen Li and Yongjin Fang and Jintao Zhang and Lou, {Xiong Wen (David)}",

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doi = "10.1002/adma.201800525",

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AU - Li, Zhen

AU - Fang, Yongjin

AU - Zhang, Jintao

AU - Lou, Xiong Wen (David)

PY - 2018/7/26

Y1 - 2018/7/26

N2 - It is of great importance to develop cost-effective electrode materials for large-scale use of Na-ion batteries. Here, a binder-free electrode based on necklace-like structures composed of Fe3N@C yolk–shell particles as an advanced anode for Na-ion batteries is reported. In this electrode, every Fe3N@C unit has a novel yolk–shell structure, which can accommodate the volumetric changes of Fe3N during the (de)sodiation processes for superior structural integrity. Moreover, all reaction units are threaded along the carbon fibers, guaranteeing excellent kinetics for the electrochemical reactions. As a result, when evaluated as an anode material for Na-ion batteries, the Fe3N@C nano-necklace electrode delivers a prolonged cycle life over 300 cycles, and achieves a high C-rate capacity of 248 mAh g−1 at 2 A g−1.

AB - It is of great importance to develop cost-effective electrode materials for large-scale use of Na-ion batteries. Here, a binder-free electrode based on necklace-like structures composed of Fe3N@C yolk–shell particles as an advanced anode for Na-ion batteries is reported. In this electrode, every Fe3N@C unit has a novel yolk–shell structure, which can accommodate the volumetric changes of Fe3N during the (de)sodiation processes for superior structural integrity. Moreover, all reaction units are threaded along the carbon fibers, guaranteeing excellent kinetics for the electrochemical reactions. As a result, when evaluated as an anode material for Na-ion batteries, the Fe3N@C nano-necklace electrode delivers a prolonged cycle life over 300 cycles, and achieves a high C-rate capacity of 248 mAh g−1 at 2 A g−1.

KW - electrospinning

KW - iron nitrides

KW - sodium-ion batteries

KW - yolk–shell structures

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Necklace-Like Structures Composed of Fe₃N@C Yolk–Shell Particles as an Advanced Anode for Sodium-Ion Batteries

Abstract

Keywords

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