Neutron powder diffraction and first-principles computational studies of CuLi{sub x}Mg{sub 2-x} (x{approx_equal}0.08), CuMg{sub 2}, and Cu{sub 2}Mg

Neutron powder diffraction and first-principles computational studies of CuLi{sub x}Mg{sub 2-x} (x{approx_equal}0.08), CuMg{sub 2}, and Cu{sub 2}Mg

A small addition of Li changes the orthorhombic structure of CuMg{sub 2} to hexagonal CuLi{sub x}Mg{sub 2-x} (x=0.08). Determining the Li content of the ternary phase and Li atomic positions was our main objective for this work. For this reason we performed neutron diffraction at several different t...

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Bibliographic Details
Published in:Journal of solid state chemistry Vol. 183; no. 1
Main Authors: Braga, M.H., CEMUC and Physics Engineering Department, Engineering Faculty of the University of Porto, R. Dr. Roberto Frias, s/n, 4200-465 Porto, Ferreira, J.J.A., Siewenie, J., Proffen, Th, Vogel, S.C., Daemen, L.L.
Format: Journal Article
Language:English
Published: United States 15-01-2010
Subjects:
ALLOYS
COHERENT SCATTERING
COPPER ALLOYS
CRYSTAL DEFECTS
CRYSTAL LATTICES
CRYSTAL STRUCTURE
DIFFRACTION
DISTRIBUTION FUNCTIONS
FUNCTIONS
HEXAGONAL LATTICES
INORGANIC, ORGANIC, PHYSICAL AND ANALYTICAL CHEMISTRY
INTERSTITIALS
LITHIUM ALLOYS
MANGANESE ALLOYS
MATERIALS SCIENCE
NEUTRON DIFFRACTION
ORTHORHOMBIC LATTICES
POINT DEFECTS
POWDERS
SCATTERING
TEMPERATURE RANGE
TEMPERATURE RANGE 0273-0400 K
TRANSITION ELEMENT ALLOYS
X-RAY DIFFRACTION
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Summary:A small addition of Li changes the orthorhombic structure of CuMg{sub 2} to hexagonal CuLi{sub x}Mg{sub 2-x} (x=0.08). Determining the Li content of the ternary phase and Li atomic positions was our main objective for this work. For this reason we performed neutron diffraction at several different temperatures below and above room temperature. The results obtained on two neutron powder diffractometers were compared with X-ray diffraction (XRD) data, and with first-principles calculations. The first-principles calculations are in good agreement with Rietveld-refined data from neutron diffraction, but do not show a marked preference for one of several possible Li sites. The pair distribution function (PDF) fitting is consistent with Li substituting only Mg1 (1/2, 0, z). Interstitial spaces in the structure of CuMg{sub 2} and of CuLi{sub x}Mg{sub 2-x} were also considered, but are unlikely to be occupied by Li. Neutron diffraction data for binary CuMg{sub 2} and Cu{sub 2}Mg were also obtained. - Graphical abstract: CuLi{sub x}Mg{sub 2-x} with x=0.08 crystallizes in a P6{sub 2}22 hexagonal structure in which Li (red) will substitute Mg1 (1/2, 0, z) sites (Mg-grey). Cu atoms are represented by black spheres and empty spaces by transparent ones.
ISSN:0022-4596
1095-726X
DOI:10.1016/j.jssc.2009.09.010