The Metallic Zintl Phase Ba3Si4 – Synthesis,Crystal Structure,Chemical Bonding,and Physical Properties |
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Authors: | Umut Aydemir,Alim Ormeci,Horst Borrmann,Bodo Bö hme,Fabio Zü rcher,Burcu Uslu,Thorsten Goebel,Walter Schnelle,Paul Simon,Wilder Carrillo‐Cabrera,Frank Haarmann,Michael Baitinger,Reinhard Nesper,Hans Georg von Schnering,Yuri Grin |
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Abstract: | The Zintl phase Ba3Si4 has been synthesized from the elements at 1273 K as a single phase. No homogeneity range has been found. The compound decomposes peritectically at 1307(5) K to BaSi2 and melt. The butterfly‐shaped Si46− Zintl anion in the crystal structure of Ba3Si4 (Pearson symbol tP28, space group P42/mnm, a = 8.5233(3) Å, c = 11.8322(6) Å) shows only slightly different Si‐Si bond lengths of d(Si–Si) = 2.4183(6) Å (1×) and 2.4254(3) Å (4×). The compound is diamagnetic with χ ≈ −50 × 10−6 cm3 mol−1. DC resistivity measurements show a high electrical resistivity (ρ(300 K) ≈ 1.2 × 10−3 Ω m) with positive temperature gradient dρ/dT. The temperature dependence of the isotropic signal shift and the spin‐lattice relaxation times in 29Si NMR spectroscopy confirms the metallic behavior. The experimental results are in accordance with the calculated electronic band structure, which indicates a metal with a low density of states at the Fermi level. The electron localization function (ELF) is used for analysis of chemical bonding. The reaction of solid Ba3Si4 with gaseous HCl leads to the oxidation of the Si46− Zintl anion and yields nanoporous silicon. |
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Keywords: | Barium Tribariumtetrasilicide Zintl phases Phase diagrams Electronic structure Chemical bonding Nanoporous silicon Crystal structures |
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