Electronic structure of LaNi4.5Mn0.5 hydrogen storage alloy and its hydrid

Li Li; Ren Jie Chen; Feng Wu; Shi Chen

Electronic structure of LaNi_4.5Mn_0.5 hydrogen storage alloy and its hydrid

Li Li^*, Ren Jie Chen, Feng Wu, Shi Chen

^*Corresponding author for this work

School of Material Science and Engineering

Beijing Institute of Technology

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

Abstract

The method of total energy based on the density functional theory (DFT) was introduced in this paper, and the plane wave function was selected as the basis set in combination with Ultra-soft Pseudopotential technology. Both theoretical calculation and first principles analysis of LaNi_4.5Mn hydrogen-storage alloy and its hydrid, in which Mn substituted for Ni at 3g sites, have been investigated. Total energy, crystal structure, energy band structure and electronic density of states were calculated. The results indicated that the crystal volume of the hydrogen storage alloy expanded slightly after Mn substituted at 3g site in LaNi₅ alloys, along with the decrease of the crystal stability. The contribution of DOS near fermi energy (E_F) for LaNi_4.5Mn_0.5 hydrogen storage alloy mainly due to p electron of La atom, d electron of Ni and Mn atom.

Original language	English
Pages (from-to)	1169-1172
Number of pages	4
Journal	Gongneng Cailiao/Journal of Functional Materials
Volume	38
Issue number	7
Publication status	Published - Jul 2007

Keywords

Density functional theory
Electronic structure
Hydrogen storage
LaNiMn

Cite this

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title = "Electronic structure of LaNi4.5Mn0.5 hydrogen storage alloy and its hydrid",

abstract = "The method of total energy based on the density functional theory (DFT) was introduced in this paper, and the plane wave function was selected as the basis set in combination with Ultra-soft Pseudopotential technology. Both theoretical calculation and first principles analysis of LaNi4.5Mn hydrogen-storage alloy and its hydrid, in which Mn substituted for Ni at 3g sites, have been investigated. Total energy, crystal structure, energy band structure and electronic density of states were calculated. The results indicated that the crystal volume of the hydrogen storage alloy expanded slightly after Mn substituted at 3g site in LaNi5 alloys, along with the decrease of the crystal stability. The contribution of DOS near fermi energy (EF) for LaNi4.5Mn0.5 hydrogen storage alloy mainly due to p electron of La atom, d electron of Ni and Mn atom.",

keywords = "Density functional theory, Electronic structure, Hydrogen storage, LaNiMn",

author = "Li Li and Chen, \{Ren Jie\} and Feng Wu and Shi Chen",

year = "2007",

month = jul,

language = "English",

volume = "38",

pages = "1169--1172",

journal = "Gongneng Cailiao/Journal of Functional Materials",

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publisher = "Journal of Functional Materials",

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TY - JOUR

T1 - Electronic structure of LaNi4.5Mn0.5 hydrogen storage alloy and its hydrid

AU - Li, Li

AU - Chen, Ren Jie

AU - Wu, Feng

AU - Chen, Shi

PY - 2007/7

Y1 - 2007/7

N2 - The method of total energy based on the density functional theory (DFT) was introduced in this paper, and the plane wave function was selected as the basis set in combination with Ultra-soft Pseudopotential technology. Both theoretical calculation and first principles analysis of LaNi4.5Mn hydrogen-storage alloy and its hydrid, in which Mn substituted for Ni at 3g sites, have been investigated. Total energy, crystal structure, energy band structure and electronic density of states were calculated. The results indicated that the crystal volume of the hydrogen storage alloy expanded slightly after Mn substituted at 3g site in LaNi5 alloys, along with the decrease of the crystal stability. The contribution of DOS near fermi energy (EF) for LaNi4.5Mn0.5 hydrogen storage alloy mainly due to p electron of La atom, d electron of Ni and Mn atom.

AB - The method of total energy based on the density functional theory (DFT) was introduced in this paper, and the plane wave function was selected as the basis set in combination with Ultra-soft Pseudopotential technology. Both theoretical calculation and first principles analysis of LaNi4.5Mn hydrogen-storage alloy and its hydrid, in which Mn substituted for Ni at 3g sites, have been investigated. Total energy, crystal structure, energy band structure and electronic density of states were calculated. The results indicated that the crystal volume of the hydrogen storage alloy expanded slightly after Mn substituted at 3g site in LaNi5 alloys, along with the decrease of the crystal stability. The contribution of DOS near fermi energy (EF) for LaNi4.5Mn0.5 hydrogen storage alloy mainly due to p electron of La atom, d electron of Ni and Mn atom.

KW - Density functional theory

KW - Electronic structure

KW - Hydrogen storage

KW - LaNiMn

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M3 - Article

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SN - 1001-9731

VL - 38

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JO - Gongneng Cailiao/Journal of Functional Materials

JF - Gongneng Cailiao/Journal of Functional Materials

IS - 7

ER -

Electronic structure of LaNi_4.5Mn_0.5 hydrogen storage alloy and its hydrid

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