High-Pressure Synthesis of β-Ir₄B₅and Determination of the Compressibility of Various Iridium Borides

Abstract: 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 enrich… Show more

“…The binary iridium boron system has been studied thoroughly, 36 , 37 and recent attention is mainly due to joint theoretical and experimental classification of some iridium borides as potentially superhard materials. 38 − 40 …”

“…Also, platinum metals and their interaction with boron have been the targets of investigation, − which have been directed toward an understanding of their distinct structural chemistry and/or exploration of their mechanical properties. The binary iridium boron system has been studied thoroughly, , and recent attention is mainly due to joint theoretical and experimental classification of some iridium borides as potentially superhard materials. − …”

Crystal Structure and Physical Properties of the Cage Compound Hf₂B_2–2δIr_5+δ

“…The binary iridium boron system has been studied thoroughly, 36 , 37 and recent attention is mainly due to joint theoretical and experimental classification of some iridium borides as potentially superhard materials. 38 − 40 …”

“…Also, platinum metals and their interaction with boron have been the targets of investigation, − which have been directed toward an understanding of their distinct structural chemistry and/or exploration of their mechanical properties. The binary iridium boron system has been studied thoroughly, , and recent attention is mainly due to joint theoretical and experimental classification of some iridium borides as potentially superhard materials. − …”

Crystal Structure and Physical Properties of the Cage Compound Hf₂B_2–2δIr_5+δ

“…57 Besides the 1D B-ribbons, we also found the graphene-like B-sheet with short sides of 1.89 A and long sides of 2.00 A in Cm-Ir 4 B 5 , which is shorter than the high-pressure synthesis of b-Ir 4 B 5 (2.122 A). 58 In general, it is worth noting that the distances of the nearest neighbor Ir-B bonds in these six considered structures are all smaller than the sum (2.25 A) of the covalent radii of the B atom (rB ¼ 0.84 A) and the Ir atom (rIr ¼ 1.41 A), demonstrating the strong covalent bonding between Ir and B in these six considered phases. However, with increasing B concentration, the number of Ir-B covalent bonds decreases, and strong B-B covalent bonds gradually appear for borides with 1 < B/Ir < 2.…”

“… 57 Besides the 1D B-ribbons, we also found the graphene-like B-sheet with short sides of 1.89 Å and long sides of 2.00 Å in Cm -Ir 4 B 5 , which is shorter than the high-pressure synthesis of β-Ir 4 B 5 (2.122 Å). 58 …”

The crystal structures, phase stabilities, electronic structures and bonding features of iridium borides from first-principles calculations

“…Inexpensive hard and superhard (with a Vickers hardness of around 40 GPa and above) materials are in much demand for various industrial applications. Novel carbides, 1 nitrides, [2][3][4][5][6][7][8] borides, [9][10][11][12][13][14][15][16][17][18][19][20][21][22][23] and other compounds of transition metals, 24,25 which can potentially combine high hardness and promising optical, electronic, and other properties, are the focus of extensive investigations. [26][27][28] Nowadays, one of the most widely used hard materials for commercial applications is tungsten carbide, WC.…”

Synthesis, crystal structure, and properties of stoichiometric hard tungsten tetraboride, WB₄