Advanced Functional Materials

, volume 24 , issue 27 , pages 4265-4272

Atomic Structure and Kinetics of NASICON NaxV2(PO4)3Cathode for Sodium-Ion Batteries

Zelang Jian ^{1, 2}

Chen-Chen Yuan ¹

Wenze Han ³

Xia Lu ¹

Lin Gu ¹

Xuekui Xi ¹

Yongsheng Hu ¹

Hong Li ¹

Yueli Liu ²

Dongfeng Chen ³

Yuichi Ikuhara ⁴

Liquan Chen ¹

Hide authors affiliations Show authors affiliations: 4 affiliations

Beijing National Laboratory for Condensed Matter Physics; Institute of Physics; Chinese Academy of Sciences; Beijing 100190 China |

School of Materials Science and Engineering; Wuhan University of Technology; Wuhan 430070 China |

China Institute of Atomic Energy; Beijing 102413 China |

⁴

Institute of Engineering Innovation; University of Tokyo; Tokyo 113-8654 Japan |

Publication type: Journal Article

Publication date: 2014-04-02

Wiley

Advanced Functional Materials

scimago Q1

wos Q1

SJR: 5.439

CiteScore: 27.7

Impact factor: 19.0

ISSN: 1616301X, 16163028

DOI: 10.1002/adfm.201400173

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Electronic, Optical and Magnetic Materials

Electrochemistry

Condensed Matter Physics

Biomaterials

Abstract

Na3V2(PO4)(3) is one of the most important cathode materials for sodiumion batteries, delivering about two Na extraction/insertion from/into the unit structure. To understand the mechanism of sodium storage, a detailed structure of rhombohedral Na3V2(PO4)(3) and its sodium extracted phase of NaV2(PO4)(3) are investigated at the atomic scale using a variety of advanced techniques. It is found that two different Na sites (6b, M1 and 18e, M2) with different coordination environments co-exist in Na3V2(PO4)(3), whereas only one Na site (6b, M1) exists in NaV2(PO4)(3). When Na is extracted from Na3V2(PO4)(3) to form NaV2(PO4)(3), Na+ occupying the M2 site (CN = 8) is extracted and the rest of the Na remains at M1 site (CN = 6). In addition, the Na atoms are not randomly distributed, possibly with an ordered arrangement in M2 sites locally for Na3V2(PO4)(3). Na+ ions at the M1 sites in Na3V2(PO4)(3) tend to remain immobilized, suggesting a direct M2- to -M2 conduction pathway. Only Na occupying the M2 sites can be extracted, suggesting about two Na atoms able to be extracted from the Na3V2(PO4)(3) structure.

Found

6 citations

Antipov Evgeny

DSc in Chemistry, professor, full member of the Russian Academy of Sciences

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Jian Z. et al. Atomic Structure and Kinetics of NASICON NaxV2(PO4)3Cathode for Sodium-Ion Batteries // Advanced Functional Materials. 2014. Vol. 24. No. 27. pp. 4265-4272.

GOST all authors (up to 50) Copy

Jian Z., Yuan C., Han W., Lu X., Gu L., Xi X., Hu Y., Li H., Liu Y., Chen D., Ikuhara Y., Chen L. Atomic Structure and Kinetics of NASICON NaxV2(PO4)3Cathode for Sodium-Ion Batteries // Advanced Functional Materials. 2014. Vol. 24. No. 27. pp. 4265-4272.

RIS |

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RIS Copy

TY - JOUR

DO - 10.1002/adfm.201400173

UR - https://doi.org/10.1002/adfm.201400173

TI - Atomic Structure and Kinetics of NASICON NaxV2(PO4)3Cathode for Sodium-Ion Batteries

T2 - Advanced Functional Materials

AU - Jian, Zelang

AU - Yuan, Chen-Chen

AU - Han, Wenze

AU - Lu, Xia

AU - Gu, Lin

AU - Xi, Xuekui

AU - Hu, Yongsheng

AU - Li, Hong

AU - Liu, Yueli

AU - Chen, Dongfeng

AU - Ikuhara, Yuichi

AU - Chen, Liquan

PY - 2014

DA - 2014/04/02

PB - Wiley

SP - 4265-4272

IS - 27

VL - 24

SN - 1616-301X

SN - 1616-3028

ER -

BibTex |

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BibTex (up to 50 authors) Copy

@article{2014_Jian,

author = {Zelang Jian and Chen-Chen Yuan and Wenze Han and Xia Lu and Lin Gu and Xuekui Xi and Yongsheng Hu and Hong Li and Yueli Liu and Dongfeng Chen and Yuichi Ikuhara and Liquan Chen},

title = {Atomic Structure and Kinetics of NASICON NaxV2(PO4)3Cathode for Sodium-Ion Batteries},

journal = {Advanced Functional Materials},

year = {2014},

volume = {24},

publisher = {Wiley},

month = {apr},

url = {https://doi.org/10.1002/adfm.201400173},

number = {27},

pages = {4265--4272},

doi = {10.1002/adfm.201400173}

}

MLA

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MLA Copy

Jian, Zelang, et al. “Atomic Structure and Kinetics of NASICON NaxV2(PO4)3Cathode for Sodium-Ion Batteries.” Advanced Functional Materials, vol. 24, no. 27, Apr. 2014, pp. 4265-4272. https://doi.org/10.1002/adfm.201400173.

Publisher

Wiley

Journal

Advanced Functional Materials

scimago Q1

wos Q1

SJR

5.439

CiteScore

27.7

Impact factor

19.0

ISSN

1616301X (Print)

16163028 (Electronic)