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Ln<sub>3</sub>MBi<sub>5</sub> (Ln=Pr, Nd, Sm; M=Zr, Hf): Intermetallics with Hypervalent Bismuth Chains

Jason F. Khoury, Xiaoyu Song, Leslie M. Schoop

2022Zeitschrift für anorganische und allgemeine Chemie13 citationsDOI

Abstract

Abstract We report five new isostructural compounds in the Ln 3 MBi 5 (Ln=Pr, Nd, Sm; M=Zr, Hf) family, and compare them to the recently reported Sm 3 ZrBi 5 analogue. Ln 3 MBi 5 crystallizes in the P 6 3 / mcm space group, hosting the anti ‐Hf 5 Sn 3 Cu structure type. The one‐dimensional structure consists of hypervalent Bi 2− chains and face‐sharing MBi 6 octahedra that form chains along the c axis. A framework of Ln 3+ cations charge balances and separates the two motifs. The Bi−Bi and M−Bi bond lengths decrease as the Ln cation becomes smaller across the period, but there is almost no difference in either bond length when the identity of M changes, as expected because Zr and Hf have the exact same radii due to lanthanide contraction. We present a structural stability map showing the limits of cation stability in the structure, with La 3+ and U 3+ as the largest cations and Sm 3+ as the smallest cation. X‐ray photoelectron spectra suggest ambiguous valence states in the Ln 3 MBi 5 structure depending on the identity of the M atom. This work further expands the Ln 3 MBi 5 family and sheds new light on how their bonding behavior may vary based on chemical composition.

Topics & Concepts

IsostructuralCrystallographyHypervalent moleculeIntermetallicValence (chemistry)OctahedronBond lengthLanthanideBismuthChemistryCrystal structureFormal chargeMaterials scienceIonPhysical chemistryReagentAlloyOrganic chemistryRare-earth and actinide compoundsIron-based superconductors researchTopological Materials and Phenomena