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Z. Naturforsch. 2013, 68b, 581 – 586
doi:10.5560/ZNB.2013-3045
Ferromagnetism and the Formation of Interlayer As2 Dimers in Ca(Fe1−xNix)2As2
Roman Pobel, Rainer Frankovsky and Dirk Johrendt
Department Chemie der Ludwig-Maximilians-Universität München, Butenandtstraße 5–13 (Haus D), 81377 München, Germany
Reprint requests to Prof. Dr. Dirk Johrendt. Fax: 089-2180 77431. E-mail: johrendt@lmu.de
Received February 13, 2013 / published online Juli 2, 2013
Dedicated to Professor Heinrich Nöth on the occasion of his 85th birthday
The compounds Ca(Fe1−xNix)2As2 with the tetragonal ThCr2Si2-type structure (space group I4/mmm) show a continuous transition of the interlayer As–As distances from a non-bonding state in CaFe2As2 (dAsAs = 313 pm) to single-bonded As2 dimers in CaNi2As2 (dAsAs = 260 pm). Magnetic measurements have revealed weak ferromagnetism which develops near the composition Ca(Fe0.5Ni0.5)2As2, while the compounds with lower and higher nickel concentrations are both Pauli-paramagnetic. DFT band structure calculations have shown that the As2 dimer formation is a consequence of weaker metal-metal bonding in the MAs4/4 layers (M = Fe1−xNix) of the Ni-rich compounds, and depends not on depopulation or shift of As–As σ* antibonding states as previously suggested. Our results also show that the ferromagnetism of Ca(Fe0.5Ni0.5)2As2 and related compounds like SrCo2(Ge0.5P0.5)2 is not as recently suggested induced by dimer breaking, but arises from the high density of states generated by the transition metal 3d bands near the Fermi level without contribution from dimers.
Key words: Intermetallic Compounds, Crystal Structures, ThCr2Si2-type Structure, Chemical Bonding, Ferromagnetism
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