Intermetallic solid solution Fe1−xCoxGa3: Synthesis, structure, NQR study and electronic band structure calculations

Intermetallic solid solution Fe1−xCoxGa3: Synthesis, structure, NQR study and electronic band structure calculations

Unlimited solid solution Fe1−xCoxGa3 was prepared from Ga flux. Its crystal structure was refined for Fe0.5Co0.5Ga3 (P42/mnm, a=6.2436(9), c=6.4654(13), Z=4) and showed no ordering of the metal atoms. A combination of the electronic band structure calculations within the density functional theory (D...

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Bibliographic Details
Published in:Journal of solid state chemistry Vol. 194; pp. 361 - 368
Main Authors: Verchenko, V.Yu, Likhanov, M.S., Kirsanova, M.A., Gippius, A.A, Tkachev, A.V., Gervits, N.E., Galeeva, A.V., Büttgen, N., Krätschmer, W., Lue, C.S., Okhotnikov, K.S., Shevelkov, A.V.
Format: Journal Article
Language:English
Published: Amsterdam Elsevier Inc 01-10-2012
Elsevier
Subjects:
Band structure of solids
Cobalt
Crystal and electronic structure
Crystal structure
Electronics
Fermi level
Intermetallics
Iron
Mathematical analysis
Nuclear quadrupole resonance
Solid solution
Solid solutions
Sporting goods
Intermetallics
Iron
Solid solution
Cobalt
Crystal and electronic structure
Nuclear quadrupole resonance
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Summary:Unlimited solid solution Fe1−xCoxGa3 was prepared from Ga flux. Its crystal structure was refined for Fe0.5Co0.5Ga3 (P42/mnm, a=6.2436(9), c=6.4654(13), Z=4) and showed no ordering of the metal atoms. A combination of the electronic band structure calculations within the density functional theory (DFT) approach and 69,71Ga nuclear quadrupole resonance (NQR) spectroscopy clearly shows that the Fe–Fe and Co–Co dumbbells are preferred to the Fe–Co dumbbells in the crystals structure. The band structure features a band gap of about 0.4eV, with the Fermi level crossing peaks of a substantial density of electronic states above the gap for x>0. The solid solution is metallic for x>0.025. The study of the nuclear spin–lattice relaxation shows that the rate of the relaxation, 1/T1, is very sensitive to the Co concentration and correlates well with the square of the density of states at the Fermi level, N2(EF). Rate of the nuclear spin–lattice relaxation, 1/T1, observed in the 69Ga NQR experiments for the intermetallic solid solution Fe1−xCoxGa3 is the highest for x=0.25 with the highest calculated density of electronic states at the Fermi level, N(EF); in general, 1/T1 correlates with N2(EF). [Display omitted] ► Fe1−xCoxGa3 solid solution is prepared in single crystalline form from Ga flux. ► In the crystal structure Fe–Fe and Co–Co dumbbells are preferred to Fe–Co dumbbells. ► Metal-to-semiconductor transition occurs at 0<x<0.025. ► 69,71Ga NQR spectra efficiently probe local environment of two independent Ga atoms. ► Rate of nuclear spin–lattice relaxation follows squared DOS at the Fermi level.
Bibliography:ObjectType-Article-2
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content type line 23
ISSN:0022-4596
1095-726X
1095-726X
DOI:10.1016/j.jssc.2012.05.041