Advanced Materials, volume 31, issue 40, pages 1903125

Self‐Supporting, Flexible, Additive‐Free, and Scalable Hard Carbon Paper Self‐Interwoven by 1D Microbelts: Superb Room/Low‐Temperature Sodium Storage and Working Mechanism

Bao Hua Hou ¹

Ying-Ying Wang ¹

Qiu Li Ning ¹

Wen-Hao Li ²

Xiao Tong Xi ¹

Yang Xu ¹

Hao Jie Liang ¹

Xi Feng ¹

Xinglong Wu ^{1, 2}

Hide authors affiliations Show authors affiliations: 2 affiliations

National & Local United Engineering Laboratory for Power BatteriesFaculty of ChemistryNortheast Normal University Changchun Jilin 130024 P. R. China |

Key Laboratory for UV Light‐Emitting Materials and TechnologyNortheast Normal UniversityMinistry of Education Changchun Jilin 130024 P. R. China |

Publication type: Journal Article

Publication date: 2019-08-12

Wiley

Journal: Advanced Materials

SJR: 9.191

CiteScore: 43.0

Impact factor: 27.4

ISSN: 09359648, 15214095

DOI: 10.1002/adma.201903125

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General Materials Science

Mechanical Engineering

Mechanics of Materials

Abstract

Hard carbon is regarded as a promising anode material for sodium-ion batteries (SIBs). However, it usually suffers from the issues of low initial Coulombic efficiency (ICE) and poor rate performance, severely hindering its practical application. Herein, a flexible, self-supporting, and scalable hard carbon paper (HCP) derived from scalable and renewable tissue is rationally designed and prepared as practical additive-free anode for room/low-temperature SIBs with high ICE. In ether electrolyte, such HCP achieves an ICE of up to 91.2% with superior high-rate capability, ultralong cycle life (e.g., 93% capacity retention over 1000 cycles at 200 mA g-1 ) and outstanding low-temperature performance. Working mechanism analyses reveal that the plateau region is the rate-determining step for HCP with a lower electrochemical reaction kinetics, which can be significantly improved in ether electrolyte.

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GOST Copy

Hou B. H. et al. Self‐Supporting, Flexible, Additive‐Free, and Scalable Hard Carbon Paper Self‐Interwoven by 1D Microbelts: Superb Room/Low‐Temperature Sodium Storage and Working Mechanism // Advanced Materials. 2019. Vol. 31. No. 40. p. 1903125.

GOST all authors (up to 50) Copy

Hou B. H., Wang Y., Ning Q. L., Li W., Xi X. T., Xu Y., Liang H. J., Feng X., Wu X. Self‐Supporting, Flexible, Additive‐Free, and Scalable Hard Carbon Paper Self‐Interwoven by 1D Microbelts: Superb Room/Low‐Temperature Sodium Storage and Working Mechanism // Advanced Materials. 2019. Vol. 31. No. 40. p. 1903125.

RIS |

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RIS Copy

TY - JOUR

DO - 10.1002/adma.201903125

UR - https://doi.org/10.1002/adma.201903125

TI - Self‐Supporting, Flexible, Additive‐Free, and Scalable Hard Carbon Paper Self‐Interwoven by 1D Microbelts: Superb Room/Low‐Temperature Sodium Storage and Working Mechanism

T2 - Advanced Materials

AU - Hou, Bao Hua

AU - Wang, Ying-Ying

AU - Ning, Qiu Li

AU - Li, Wen-Hao

AU - Xi, Xiao Tong

AU - Xu, Yang

AU - Liang, Hao Jie

AU - Feng, Xi

AU - Wu, Xinglong

PY - 2019

DA - 2019/08/12

PB - Wiley

SP - 1903125

IS - 40

VL - 31

SN - 0935-9648

SN - 1521-4095

ER -

BibTex |

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BibTex (up to 50 authors) Copy

@article{2019_Hou,

author = {Bao Hua Hou and Ying-Ying Wang and Qiu Li Ning and Wen-Hao Li and Xiao Tong Xi and Yang Xu and Hao Jie Liang and Xi Feng and Xinglong Wu},

title = {Self‐Supporting, Flexible, Additive‐Free, and Scalable Hard Carbon Paper Self‐Interwoven by 1D Microbelts: Superb Room/Low‐Temperature Sodium Storage and Working Mechanism},

journal = {Advanced Materials},

year = {2019},

volume = {31},

publisher = {Wiley},

month = {aug},

url = {https://doi.org/10.1002/adma.201903125},

number = {40},

pages = {1903125},

doi = {10.1002/adma.201903125}

}

MLA

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MLA Copy

Hou, Bao Hua, et al. “Self‐Supporting, Flexible, Additive‐Free, and Scalable Hard Carbon Paper Self‐Interwoven by 1D Microbelts: Superb Room/Low‐Temperature Sodium Storage and Working Mechanism.” Advanced Materials, vol. 31, no. 40, Aug. 2019, p. 1903125. https://doi.org/10.1002/adma.201903125.

Found error?

Publisher

Wiley

Journal

Advanced Materials

SJR

9.191

CiteScore

43.0

Impact factor

27.4

ISSN

09359648 (Print)

15214095 (Electronic)