Structural, electronic, magnetic and elastic properties of tetragonal layered diselenide KCo2Se2 from first principles calculations |
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| Authors: | V.V. BannikovI.R. Shein A.L. Ivanovskii |
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| Affiliation: | Institute of Solid State Chemistry, Ural Branch of the Russian Academy of Sciences, 620990 Ekaterinburg, Russia |
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| Abstract: | The structural, elastic, magnetic and electronic properties of the layered tetragonal phase KCo2Se2 have been examined in details by means of the first-principles calculations and analyzed in comparison with the isostructural KFe2Se2 as the parent phase for the newest group of ternary superconducting iron-chalcogenide materials. Our data show that KCo2Se2 should be characterized as a quasi-two-dimensional ferromagnetic metal with highly anisotropic inter-atomic bonding owing to mixed ionic, covalent, and metallic contributions inside [Co2Se2] blocks, and with ionic bonding between the adjacent [Co2Se2] blocks and K sheets. This material should behave in a brittle manner, adopt enhanced elastic anisotropy rather in compressibility than in shear, and should show very low hardness. |
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| Keywords: | KCo2Se2 Structural Electronic Magnetic Elastic properties Ab initio calculations |
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