Electronic and Structural Properties of MPt<sub>x</sub>B<sub>6-2x</sub> (M = Y, Yb): Structural Disorder in an Octahedral Boron Framework

Autor(en)
Leonid Salamakha, Oksana Sologub, Berthold Stöger, Gerald Giester, Peter F. Rogl, Herwig Michor, Ernst Bauer
Abstrakt

Two new ternary platinum borides, YPtxB6-2x and YbPtxB6-2x, were obtained by argon-arc melting of the elements followed by annealing at 780 °C (750 °C). The structures of these compounds combine the fragments of CaB6- and AuCu3-type structures [space group Pm3̅m; x = 1.15, a = 4.0550(4) Å and x = 1.34, a = 4.0449(2) Å for YPtxB6-2x and YbPtxB6-2x, respectively; single-crystal X-ray diffraction]. Two possible variants of B/Pt ordering (space group P4/mmm) were created via a group-subgroup approach targeting the derived stoichiometry. The architecture of the type-I YPtxB6-2x structure model (a′ = a, b′ = b, c′ = c) combines the 4.82 boron nets alternating with the layers of Y and Pt; the type-II YPtxB6-2x structure model (a′ = 2a, b′ = 2b, c′ = c) exhibits columns of linked [B24] truncated cubes filled with Y running along the c axis. The striking features of both structural models are [B4Pt2] octahedra. The structural similarities with hitherto reported structures (YB2C2, M2Ni21B20, MNi21B20, and ErNiB4) were drawn supporting the verity of these models. A chemical bonding analysis for type-I and type-II YPtxB6-2x based on electron localization function distribution revealed a two-center interaction forming the 4.82 boron nets for type-I YPtxB6-2x and a covalent bonding within [B4Pt2] octahedra as well as a two-center interaction for B-B intraoctahedral bonds for type-II YPtxB6-2x. Analysis of Bader charges revealed the cationic character of the yttrium atoms. The interactions for nondistorted areas of the structures agree well with the bonding picture calculated for constituent building structures, YB6 and YPt3. Electronic structure calculations predict YPtxB6-2x to be a metal with the density of states of around N(EF) = 1 states eV-1 f.u.-1. The exploration of the Y-Pt-B system in the relevant concentration range elucidated the homogeneity field of YPtxB6-2x (0.90 ≤ x ≤ 1.40) and revealed the existence of three more ternary phases at 780 °C: YPt2B (space group P6222), YPt3B (space group P4mm), and YPt5B2 (space group C2/m).

Organisation(en)
Institut für Mineralogie und Kristallographie, Institut für Materialchemie
Externe Organisation(en)
Technische Universität Wien, Ivan Franko National University of Lviv
Journal
Inorganic Chemistry
Band
62
Seiten
19164-19177
Anzahl der Seiten
14
ISSN
0020-1669
DOI
https://doi.org/10.1021/acs.inorgchem.3c01526
Publikationsdatum
11-2023
Peer-reviewed
Ja
ÖFOS 2012
105113 Kristallographie, 105116 Mineralogie, 104003 Anorganische Chemie, 104017 Physikalische Chemie
ASJC Scopus Sachgebiete
Physical and Theoretical Chemistry, Inorganic Chemistry
Link zum Portal
https://ucrisportal.univie.ac.at/de/publications/33eba383-4c2d-4a97-9acb-554d990c3c1f