Graphdiyne: A promising anode material for lithium ion batteries with high capacity and rate capability

Hongyu Zhang; Yueyuan Xia; Hongxia Bu; Xiaopeng Wang; Meng Zhang; Youhua Luo; Mingwen Zhao

doi:10.1063/1.4789635

Graphdiyne: A promising anode material for lithium ion batteries with high capacity and rate capability

Hongyu Zhang
, Yueyuan Xia
, Hongxia Bu
, Xiaopeng Wang
, Meng Zhang
, Youhua Luo
, Mingwen Zhao

East China University of Science and Technology
Shandong University

科研成果: 期刊稿件 › 文章 › 同行评审

187 引用（Scopus）

摘要

We have carried out first-principles calculations to explore the energetics and dynamics of Li in graphdiyne monolayers. The porous structure of graphdiyne enables both in-plane and out-plane diffusion of Li ions with moderate barriers, 0.35-0.52 eV. A unique Li occupation pattern named as a triangular pattern is identified, with Li atoms occupying three symmetric sites in the triangular-like pores. Based on this occupation pattern, the Li storage capacity of single-layer graphdiyne can be as high as LiC₃, which is twice the capacity of commonly used graphite (LiC₆). With high Li mobility and high storage capacity, this experimentally available porous carbon material is expected to find applications in efficient lithium storage.

源语言	英语
文章编号	044309
期刊	Journal of Applied Physics
卷	113
期	4
DOI	https://doi.org/10.1063/1.4789635
出版状态	已出版 - 28 1月 2013
已对外发布	是

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abstract = "We have carried out first-principles calculations to explore the energetics and dynamics of Li in graphdiyne monolayers. The porous structure of graphdiyne enables both in-plane and out-plane diffusion of Li ions with moderate barriers, 0.35-0.52 eV. A unique Li occupation pattern named as a triangular pattern is identified, with Li atoms occupying three symmetric sites in the triangular-like pores. Based on this occupation pattern, the Li storage capacity of single-layer graphdiyne can be as high as LiC3, which is twice the capacity of commonly used graphite (LiC6). With high Li mobility and high storage capacity, this experimentally available porous carbon material is expected to find applications in efficient lithium storage.",

author = "Hongyu Zhang and Yueyuan Xia and Hongxia Bu and Xiaopeng Wang and Meng Zhang and Youhua Luo and Mingwen Zhao",

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T2 - A promising anode material for lithium ion batteries with high capacity and rate capability

AU - Zhang, Hongyu

AU - Xia, Yueyuan

AU - Bu, Hongxia

AU - Wang, Xiaopeng

AU - Zhang, Meng

AU - Luo, Youhua

AU - Zhao, Mingwen

PY - 2013/1/28

Y1 - 2013/1/28

N2 - We have carried out first-principles calculations to explore the energetics and dynamics of Li in graphdiyne monolayers. The porous structure of graphdiyne enables both in-plane and out-plane diffusion of Li ions with moderate barriers, 0.35-0.52 eV. A unique Li occupation pattern named as a triangular pattern is identified, with Li atoms occupying three symmetric sites in the triangular-like pores. Based on this occupation pattern, the Li storage capacity of single-layer graphdiyne can be as high as LiC3, which is twice the capacity of commonly used graphite (LiC6). With high Li mobility and high storage capacity, this experimentally available porous carbon material is expected to find applications in efficient lithium storage.

AB - We have carried out first-principles calculations to explore the energetics and dynamics of Li in graphdiyne monolayers. The porous structure of graphdiyne enables both in-plane and out-plane diffusion of Li ions with moderate barriers, 0.35-0.52 eV. A unique Li occupation pattern named as a triangular pattern is identified, with Li atoms occupying three symmetric sites in the triangular-like pores. Based on this occupation pattern, the Li storage capacity of single-layer graphdiyne can be as high as LiC3, which is twice the capacity of commonly used graphite (LiC6). With high Li mobility and high storage capacity, this experimentally available porous carbon material is expected to find applications in efficient lithium storage.

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DO - 10.1063/1.4789635

M3 - 文章

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SN - 0021-8979

VL - 113

JO - Journal of Applied Physics

JF - Journal of Applied Physics

IS - 4

M1 - 044309

ER -

Graphdiyne: A promising anode material for lithium ion batteries with high capacity and rate capability

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