Zn5Ir7B3, Zn5Rh7B3 und Zn7+xRh9-xB3 (x ≈ 0,4) - neue ternäre Zink-Platinmetallboride

Abstract: Die neuen ternären Zinkboride Zn5Ir7B3, Zn5Rh7B3 und Zn7+xRh9–xB3 (x ≈ 0,4) wurden durch Umsetzung der Elementgemenge bei 1200 bis 1230 ?C dargestellt. Sie kristallisieren orthorhombisch in der Raumgruppe Pmma mit Z = 2. Zn5Ir7B3 (a = 1116,1(2) pm, b = 284,96(4) pm, c = 1178,1(2) pm; R = 0,042, 1414 Reflexe, 47 Parameter) und Zn5Rh7B3 (a = 1101,6(2) pm, b = 283,94(3) pm, c = 1166,6(4) pm, R = 0,033, 787 Reflexe, 47 Parameter) sind isotyp. Entlang der kurzen Achse wechseln ebene Netze aus Platinmetallatomen in … Show more

“…The investigations of Ce(Eu,Yb)-Pt-B systems are underway revealing extreme complexity of ternary phase diagrams and crystal structures of compounds [35][36][37][38]. Furthermore, in contrast to the Ir-Zn-B family [39,40] which exhibits rich structural chemistry, only one compound has hitherto been found in Pt-Zn-B system [41] and no data exist in the literature on the interaction of platinum with copper and boron. Thus, in the work given herein we focus on i) the synthesis and structural studies of the two novel ternary compounds in the Pt-Cu-B system; ii) structural relationships for (Pt Further experiments on the elucidation of the superconducting state of (Pt 1-x Cu x ) 3 Cu 2 B, such as low temperature specific heat and magnetic susceptibility measurements, as well as on the exploration of the isothermal section of the Pt-Cu-B system at 600 ºC are in progress and will be subjects of our forthcoming paper.…”

(Pt1–Cu )3Cu2B and Pt9Cu3B5, the first examples of copper platinum borides. Observation of superconductivity in a novel boron filled β-Mn-type compound

“…The investigations of Ce(Eu,Yb)-Pt-B systems are underway revealing extreme complexity of ternary phase diagrams and crystal structures of compounds [35][36][37][38]. Furthermore, in contrast to the Ir-Zn-B family [39,40] which exhibits rich structural chemistry, only one compound has hitherto been found in Pt-Zn-B system [41] and no data exist in the literature on the interaction of platinum with copper and boron. Thus, in the work given herein we focus on i) the synthesis and structural studies of the two novel ternary compounds in the Pt-Cu-B system; ii) structural relationships for (Pt Further experiments on the elucidation of the superconducting state of (Pt 1-x Cu x ) 3 Cu 2 B, such as low temperature specific heat and magnetic susceptibility measurements, as well as on the exploration of the isothermal section of the Pt-Cu-B system at 600 ºC are in progress and will be subjects of our forthcoming paper.…”

(Pt1–Cu )3Cu2B and Pt9Cu3B5, the first examples of copper platinum borides. Observation of superconductivity in a novel boron filled β-Mn-type compound

“…Keywords: Ternary and quaternary rhodium borides; Lithium metal flux; Channel structures denen die Nicht-Übergangsmetallatome liegen, und zwar jeweils in der Höhe der Boratome. Beispiele für solche Verbindungen sind CeCo 3 B 2 [1], Al 3 Ru 4 B 2 [2], Mg 3 Rh 5 B 2 [3], Li 2 Rh 3 B 2 [4] sowie die bisher beschriebenen Zink-Rhodiumboride Zn 11 Rh 18 B 8 [5], Zn 5 Rh 7 B 3 und Zn 7ϩx Rh 9Ϫx B 3 [6]. Auch das in dieser Arbeit vorgestellte, neue Zink-Rhodiumborid Zn 5 stitution durch ein magnetisch aktives Metall wie Mangan oder Eisen, bei der Verbindungen mit quasi-eindimensionalem magnetischem Verhalten entstehen [15,17].…”

Synthese und Kristallstrukturen des Zink‐Rhodiumborids Zn₅Rh₈B₄ und der Lithium‐ Magnesium‐Rhodiumboride Li_xMg_5−xRh₈B₄ (x = 1.1 und 0.5) und Li₈Mg₄Rh₁₉B₁₂

“…Nitrides, phosphides, borides Single crystals of Y 21 I 18 C 14 B 7 were prepared from the elements at 1450 K. 154 Careful diffraction measurements on the pseudo-hexagonal crystals indicated a large triclinic supercell, but even this may be an approximation to the true nature of this ``mis¢t'' structure, consisting of layers of metal atoms, iodine atoms and quasi-molecular CBC units. The new ternary zinc borides Zn 5 M 7 B 3 (M Ir, Rh) 155 are isostructural and contain planar nets of the platinum-group metal atoms interspersed by the zinc and boron atoms which have trigonal prismatic and pentagonal prismatic coordinations, respectively. The ``expected'' 156 phase Ca 9 Cl 8 (BC 2 ) 2 contains bent [BC 2 ] 5À units surrounded by eight calcium ions forming a bicapped trigonal prism.…”

21 New compounds and structures in the solid state