Effect of addition of Mn and Co on the hydrogen storage characteristics of microcrystalline Mg

J. Wang; F. Wu; Zh Q. Shan

doi:10.1016/S0925-8388(03)00301-3

Effect of addition of Mn and Co on the hydrogen storage characteristics of microcrystalline Mg

J. Wang^*, F. Wu, Zh Q. Shan

^*Corresponding author for this work

School of Material Science and Engineering

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

15 Citations (Scopus)

Abstract

Microcrystalline magnesium containing Mn and Co (Mg(Mn) and Mg(Co)) has been prepared by an arc vaporization-condensation method. The average crystal size of Mg(Mn) and Mg(Co) produced by this method is ∼50 nm. XRD patterns indicated that the main phase of the resulting microcrystalline Mg remained the hexagonal crystal structure and the lattice constants keep the same values as the pure microcrystalline Mg. This means no Mn or Co enters the Mg lattice. XRD results also showed that the main product of Mg(Mn) and Mg(Co) is MgH ₂ after hydriding. The TEM micrographs showed that some wadding was inlaid on the surface of the microcrystalline Mg. The Mg(Mn) and Mg(Co) absorbed and desorbed hydrogen more easily than pure microcrystalline Mg with the aid of Mn and Co. The complete desorption curves (P-C-T curves) with a wide pressure plateau can be obtained at 280 °C. The reversible capacity of hydrogen reached 700 cm³ g^-1 (STP), i.e. 6.2wt.% based on Mg(Mn) or Mg(Co).

Original language	English
Pages (from-to)	315-319
Number of pages	5
Journal	Journal of Alloys and Compounds
Volume	359
Issue number	1-2
DOIs	https://doi.org/10.1016/S0925-8388(03)00301-3
Publication status	Published - 22 Sept 2003

Keywords

Hydrogen storage
Microcrystalline
Vaporization-condensation

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10.1016/S0925-8388(03)00301-3

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title = "Effect of addition of Mn and Co on the hydrogen storage characteristics of microcrystalline Mg",

abstract = "Microcrystalline magnesium containing Mn and Co (Mg(Mn) and Mg(Co)) has been prepared by an arc vaporization-condensation method. The average crystal size of Mg(Mn) and Mg(Co) produced by this method is ∼50 nm. XRD patterns indicated that the main phase of the resulting microcrystalline Mg remained the hexagonal crystal structure and the lattice constants keep the same values as the pure microcrystalline Mg. This means no Mn or Co enters the Mg lattice. XRD results also showed that the main product of Mg(Mn) and Mg(Co) is MgH 2 after hydriding. The TEM micrographs showed that some wadding was inlaid on the surface of the microcrystalline Mg. The Mg(Mn) and Mg(Co) absorbed and desorbed hydrogen more easily than pure microcrystalline Mg with the aid of Mn and Co. The complete desorption curves (P-C-T curves) with a wide pressure plateau can be obtained at 280 °C. The reversible capacity of hydrogen reached 700 cm3 g-1 (STP), i.e. 6.2wt.% based on Mg(Mn) or Mg(Co).",

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TY - JOUR

T1 - Effect of addition of Mn and Co on the hydrogen storage characteristics of microcrystalline Mg

AU - Wang, J.

AU - Wu, F.

AU - Shan, Zh Q.

PY - 2003/9/22

Y1 - 2003/9/22

N2 - Microcrystalline magnesium containing Mn and Co (Mg(Mn) and Mg(Co)) has been prepared by an arc vaporization-condensation method. The average crystal size of Mg(Mn) and Mg(Co) produced by this method is ∼50 nm. XRD patterns indicated that the main phase of the resulting microcrystalline Mg remained the hexagonal crystal structure and the lattice constants keep the same values as the pure microcrystalline Mg. This means no Mn or Co enters the Mg lattice. XRD results also showed that the main product of Mg(Mn) and Mg(Co) is MgH 2 after hydriding. The TEM micrographs showed that some wadding was inlaid on the surface of the microcrystalline Mg. The Mg(Mn) and Mg(Co) absorbed and desorbed hydrogen more easily than pure microcrystalline Mg with the aid of Mn and Co. The complete desorption curves (P-C-T curves) with a wide pressure plateau can be obtained at 280 °C. The reversible capacity of hydrogen reached 700 cm3 g-1 (STP), i.e. 6.2wt.% based on Mg(Mn) or Mg(Co).

AB - Microcrystalline magnesium containing Mn and Co (Mg(Mn) and Mg(Co)) has been prepared by an arc vaporization-condensation method. The average crystal size of Mg(Mn) and Mg(Co) produced by this method is ∼50 nm. XRD patterns indicated that the main phase of the resulting microcrystalline Mg remained the hexagonal crystal structure and the lattice constants keep the same values as the pure microcrystalline Mg. This means no Mn or Co enters the Mg lattice. XRD results also showed that the main product of Mg(Mn) and Mg(Co) is MgH 2 after hydriding. The TEM micrographs showed that some wadding was inlaid on the surface of the microcrystalline Mg. The Mg(Mn) and Mg(Co) absorbed and desorbed hydrogen more easily than pure microcrystalline Mg with the aid of Mn and Co. The complete desorption curves (P-C-T curves) with a wide pressure plateau can be obtained at 280 °C. The reversible capacity of hydrogen reached 700 cm3 g-1 (STP), i.e. 6.2wt.% based on Mg(Mn) or Mg(Co).

KW - Hydrogen storage

KW - Microcrystalline

KW - Vaporization-condensation

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U2 - 10.1016/S0925-8388(03)00301-3

DO - 10.1016/S0925-8388(03)00301-3

M3 - Article

AN - SCOPUS:0041360190

SN - 0925-8388

VL - 359

SP - 315

EP - 319

JO - Journal of Alloys and Compounds

JF - Journal of Alloys and Compounds

IS - 1-2

ER -

Effect of addition of Mn and Co on the hydrogen storage characteristics of microcrystalline Mg

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Keywords

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