Christopher Neun scite author profile

A new iridium boride, β-Ir4B5, was synthesized under high-pressure/high-temperature conditions of 10.5 GPa and 1500 °C in a multianvil press with a Walker-type module. The new modification β-Ir4B5 crystallizes in a new structure type in the orthorhombic space group Pnma (no. 62) with the lattice parameters a = 10.772(2) Å, b = 2.844(1) Å, and c = 6.052(2) Å with R1 = 0.0286, wR2 = 0.0642 (all data), and Z = 2. The structure was determined by single-crystal X-ray and neutron powder diffraction on samples enriched in 11B. The compound is built up by an alternating stacking of boron and iridium layers with the sequence ABA′B′. Additionally, microcalorimetry, hardness, and compressibility measurements of the binary iridium borides α-Ir4B5, β-Ir4B5, Ir5B4, hexagonal Ir4B3–x and orthorhombic Ir4B3–x were carried out and theoretical investigations based on density function theory (DFT) were employed to complement a comprehensive evaluation of structure–property relations. The incorporation of boron into the structures does not enhance the compressibility but leads to a significant reduction of the bulk moduli and elastic constants in comparison to elemental iridium.

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Effect of ball to powder ratio on the mechanosynthesis of Re2C and its compressibility

Martínez‐García

Navarro-Mtz

Neun

et al. 2019

Journal of Alloys and Compounds

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Compressibility, microcalorimetry, elastic properties and EELS of rhenium borides

Neun

Petermüller

Bayarjargal

et al. 2018

Solid State Sciences

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Synthesis, Crystal Structure, and Compressibilities of Mn_3−xIr₅B_2+x (0≤x≤0.5) and Mn₂IrB₂

Petermüller

Neun

Stękiel

et al. 2018

Chemistry A European J

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The new ternary transition metal borides Mn3‐xIr5B2+x (0≤x≤0.5) and Mn2IrB2 were synthesized from the elements under high temperature and high‐pressure/high‐temperature conditions. Both phases can be synthesized as powder samples in a radio‐frequency furnace in argon atmosphere. High‐pressure/high‐temperature conditions were used to grow single‐crystals. The phases represent the first ternary compounds within the system Mn–Ir–B. Mn3−xIr5B2+x (0≤x≤0.5) crystallizes in the Ti3Co5B2 structure type (P4/mbm; no. 127) with parameters a=9.332(1), c=2.896(2) Å, and Z=2. Mn2IrB2 crystallizes in the β‐Cr2IrB2 crystal structure type (Cmcm; no. 63) with parameters a=3.135(3), b=9.859(5), c=13.220(3) Å, and Z=8. The compositions of both compounds were confirmed by EDX measurements and the compressibility was determined experimentally for Mn3−xIr5B2+x and by DFT calculations for Mn2IrB2.

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Elastic and thermal properties of W7Re13B and synthesis of a new ternary phase W1.3Re2.7B2

Neun

Petermüller

Haussühl

et al. 2020

Solid State Sciences

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