A comparative study for Hydrogen storage in metal decorated graphyne nanotubes and graphyne monolayers

Jinlian Lu; Yanhua Guo; Yun Zhang; Yingru Tang; Juexian Cao

doi:10.1016/j.jssc.2015.08.004

A comparative study for Hydrogen storage in metal decorated graphyne nanotubes and graphyne monolayers

Jinlian Lu, Yanhua Guo, Yun Zhang, Yingru Tang, Juexian Cao

材料科学与工程学院

科研成果: 期刊稿件 › 文章 › 同行评审

33 引用（Scopus）

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Abstract A comparative study for hydrogen storage in metal decorated graphyne nanotubes and graphyne monolayers has been investigated within the framework of first-principle calculations. Our results show that the binding energies of Li, Ca, Sc, Ti on graphyne nanotubes are stronger than that on graphyne monolayers. Such strong binding would prevent the formation of metal clusters on graphyne nanotubes. From the charge transfer and partial density of states, it is found that the curvature effect of nanotubes plays an important role for the strong binding strength of metal on graphyne nanotubes. And the hydrogen storage capacity is 4.82 wt%, 5.08 wt%, 4.88 wt%, 4.76 wt% for Li, Ca, Sc, Ti decorated graphyne nanotubes that promise a potential material for storing hydrogen.

源语言	英语
文章编号	19028
页（从-至）	53-57
页数	5
期刊	Journal of Solid State Chemistry
卷	231
DOI	https://doi.org/10.1016/j.jssc.2015.08.004
出版状态	已出版 - 1 9月 2015

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10.1016/j.jssc.2015.08.004

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title = "A comparative study for Hydrogen storage in metal decorated graphyne nanotubes and graphyne monolayers",

abstract = "Abstract A comparative study for hydrogen storage in metal decorated graphyne nanotubes and graphyne monolayers has been investigated within the framework of first-principle calculations. Our results show that the binding energies of Li, Ca, Sc, Ti on graphyne nanotubes are stronger than that on graphyne monolayers. Such strong binding would prevent the formation of metal clusters on graphyne nanotubes. From the charge transfer and partial density of states, it is found that the curvature effect of nanotubes plays an important role for the strong binding strength of metal on graphyne nanotubes. And the hydrogen storage capacity is 4.82 wt%, 5.08 wt%, 4.88 wt%, 4.76 wt% for Li, Ca, Sc, Ti decorated graphyne nanotubes that promise a potential material for storing hydrogen.",

keywords = "Ab initio calculations, Graphyne nanotubes, Hydrogen storage material",

author = "Jinlian Lu and Yanhua Guo and Yun Zhang and Yingru Tang and Juexian Cao",

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T1 - A comparative study for Hydrogen storage in metal decorated graphyne nanotubes and graphyne monolayers

AU - Lu, Jinlian

AU - Guo, Yanhua

AU - Zhang, Yun

AU - Tang, Yingru

AU - Cao, Juexian

PY - 2015/9/1

Y1 - 2015/9/1

N2 - Abstract A comparative study for hydrogen storage in metal decorated graphyne nanotubes and graphyne monolayers has been investigated within the framework of first-principle calculations. Our results show that the binding energies of Li, Ca, Sc, Ti on graphyne nanotubes are stronger than that on graphyne monolayers. Such strong binding would prevent the formation of metal clusters on graphyne nanotubes. From the charge transfer and partial density of states, it is found that the curvature effect of nanotubes plays an important role for the strong binding strength of metal on graphyne nanotubes. And the hydrogen storage capacity is 4.82 wt%, 5.08 wt%, 4.88 wt%, 4.76 wt% for Li, Ca, Sc, Ti decorated graphyne nanotubes that promise a potential material for storing hydrogen.

AB - Abstract A comparative study for hydrogen storage in metal decorated graphyne nanotubes and graphyne monolayers has been investigated within the framework of first-principle calculations. Our results show that the binding energies of Li, Ca, Sc, Ti on graphyne nanotubes are stronger than that on graphyne monolayers. Such strong binding would prevent the formation of metal clusters on graphyne nanotubes. From the charge transfer and partial density of states, it is found that the curvature effect of nanotubes plays an important role for the strong binding strength of metal on graphyne nanotubes. And the hydrogen storage capacity is 4.82 wt%, 5.08 wt%, 4.88 wt%, 4.76 wt% for Li, Ca, Sc, Ti decorated graphyne nanotubes that promise a potential material for storing hydrogen.

KW - Ab initio calculations

KW - Graphyne nanotubes

KW - Hydrogen storage material

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JO - Journal of Solid State Chemistry

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A comparative study for Hydrogen storage in metal decorated graphyne nanotubes and graphyne monolayers

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