Dissolution, diffusion and permeation behavior of hydrogen in vanadium: A first-principles investigation

Jian Luo; Hong Bo Zhou; Yue Lin Liu; Li Jiang Gui; Shuo Jin; Ying Zhang; Guang Hong Lu

doi:10.1088/0953-8984/23/13/135501

Dissolution, diffusion and permeation behavior of hydrogen in vanadium: A first-principles investigation

Jian Luo^*
, Hong Bo Zhou
, Yue Lin Liu
, Li Jiang Gui
, Shuo Jin
, Ying Zhang
, Guang Hong Lu

^*Corresponding author for this work

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

45 Scopus citations

Abstract

Employing a first-principles method, we have studied the stability, diffusivity, and permeation properties of hydrogen (H) and its isotopes in bcc vanadium (V). A single H atom is found to favor the tetrahedral interstitial site (TIS) in V. The charge density distribution exhibits a strong interaction between H and its neighbor V atoms. Analysis of DOS and Bader charge reveals that the occupation number of H-induced low energy states is directly associated with the stability of H in V. Further, H is shown to diffuse between the neighboring TISs with a diffusion barrier of 0.07eV. Diffusion coefficients and permeabilities of H isotopes in V are estimated with empirical theory. At a typical temperature of 800K, the diffusion coefficient and the permeability of H are 2.48 × 10^-4cm²s^-1 and 2.19 × 10^-9molm^-1s^-1Pa^-/2, respectively.

Original language	English
Article number	135501
Journal	Journal of Physics Condensed Matter
Volume	23
Issue number	13
DOIs	https://doi.org/10.1088/0953-8984/23/13/135501
State	Published - 6 Apr 2011

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title = "Dissolution, diffusion and permeation behavior of hydrogen in vanadium: A first-principles investigation",

abstract = "Employing a first-principles method, we have studied the stability, diffusivity, and permeation properties of hydrogen (H) and its isotopes in bcc vanadium (V). A single H atom is found to favor the tetrahedral interstitial site (TIS) in V. The charge density distribution exhibits a strong interaction between H and its neighbor V atoms. Analysis of DOS and Bader charge reveals that the occupation number of H-induced low energy states is directly associated with the stability of H in V. Further, H is shown to diffuse between the neighboring TISs with a diffusion barrier of 0.07eV. Diffusion coefficients and permeabilities of H isotopes in V are estimated with empirical theory. At a typical temperature of 800K, the diffusion coefficient and the permeability of H are 2.48 × 10-4cm2s-1 and 2.19 × 10-9molm-1s-1Pa-/2, respectively.",

author = "Jian Luo and Zhou, \{Hong Bo\} and Liu, \{Yue Lin\} and Gui, \{Li Jiang\} and Shuo Jin and Ying Zhang and Lu, \{Guang Hong\}",

year = "2011",

month = apr,

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doi = "10.1088/0953-8984/23/13/135501",

language = "英语",

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journal = "Journal of Physics Condensed Matter",

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TY - JOUR

T1 - Dissolution, diffusion and permeation behavior of hydrogen in vanadium

T2 - A first-principles investigation

AU - Luo, Jian

AU - Zhou, Hong Bo

AU - Liu, Yue Lin

AU - Gui, Li Jiang

AU - Jin, Shuo

AU - Zhang, Ying

AU - Lu, Guang Hong

PY - 2011/4/6

Y1 - 2011/4/6

N2 - Employing a first-principles method, we have studied the stability, diffusivity, and permeation properties of hydrogen (H) and its isotopes in bcc vanadium (V). A single H atom is found to favor the tetrahedral interstitial site (TIS) in V. The charge density distribution exhibits a strong interaction between H and its neighbor V atoms. Analysis of DOS and Bader charge reveals that the occupation number of H-induced low energy states is directly associated with the stability of H in V. Further, H is shown to diffuse between the neighboring TISs with a diffusion barrier of 0.07eV. Diffusion coefficients and permeabilities of H isotopes in V are estimated with empirical theory. At a typical temperature of 800K, the diffusion coefficient and the permeability of H are 2.48 × 10-4cm2s-1 and 2.19 × 10-9molm-1s-1Pa-/2, respectively.

AB - Employing a first-principles method, we have studied the stability, diffusivity, and permeation properties of hydrogen (H) and its isotopes in bcc vanadium (V). A single H atom is found to favor the tetrahedral interstitial site (TIS) in V. The charge density distribution exhibits a strong interaction between H and its neighbor V atoms. Analysis of DOS and Bader charge reveals that the occupation number of H-induced low energy states is directly associated with the stability of H in V. Further, H is shown to diffuse between the neighboring TISs with a diffusion barrier of 0.07eV. Diffusion coefficients and permeabilities of H isotopes in V are estimated with empirical theory. At a typical temperature of 800K, the diffusion coefficient and the permeability of H are 2.48 × 10-4cm2s-1 and 2.19 × 10-9molm-1s-1Pa-/2, respectively.

UR - https://www.scopus.com/pages/publications/79953647723

U2 - 10.1088/0953-8984/23/13/135501

DO - 10.1088/0953-8984/23/13/135501

M3 - 文章

C2 - 21415475

AN - SCOPUS:79953647723

SN - 0953-8984

VL - 23

JO - Journal of Physics Condensed Matter

JF - Journal of Physics Condensed Matter

IS - 13

M1 - 135501

ER -

Dissolution, diffusion and permeation behavior of hydrogen in vanadium: A first-principles investigation

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