[Ru2Bi14Br4](AlCl4)4 by mobilization and reorganization of complex clusters in ionic liquids

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Contributors

Abstract

Two polymorphs of the new cluster compound [Ru2Bi 14Br4](AlCl4)4 have been synthesized from Bi24Ru3Br20 in the Lewis acidic ionic liquid [BMIM]Cl/AlCl3 ([BMIM]+: 1-n-butyl-3- methylimidazolium) at 140a °C. A large fragment of the precursor's structure, namely the [(Bi8)Ru(Bi4Br4) Ru(Bi5)]5+ cluster, dissolved as a whole and transformed into a closely related symmetrical [(Bi5)Ru(Bi4Br 4)Ru(Bi5)]4+ cluster through structural conversion of a coordinating Bi8 2+ to a Bi 5 + polycation, while the remainder was left intact. Both modifications have monoclinic unit cells that comprise two formula units (α form: P21/n, a=982.8(2), b=1793.2(4), c=1472.0(3) pm, β=109.05(3)°; β form: P21/n, a=1163.8(2), b=1442.7(3), c=1500.7(3), β=97.73(3)°). The [Ru2Bi14Br 4]4+ cluster can be regarded as a binuclear inorganic complex of two ruthenium(I) cations that are coordinated by terminal Bi 5 + square pyramids and a central Bi4Br 4 ring. The presence of a covalent RuRu bond was established by molecular quantum chemical calculations utilizing real-space bonding indicator ELI-D. Structural similarity of the new and parent cluster suggests a structural reorganization or an exchange of the bismuth polycations as mechanisms of cluster formation. In this top-down approach a complex-structured unit formed at high temperature was made available for low-temperature use. Cluster transformation: A large naked metal cluster cation has been extracted from a saltlike precursor in a Lewis acidic ionic liquid. In solution, the cluster reorganized by transformation of the Bi8 2+ square antiprism, coordinated to a ruthenium atom, into a coordinating Bi5 + square pyramid (see scheme).

Details

Original languageEnglish
Pages (from-to)10886-10891
Number of pages6
JournalChemistry - A European Journal
Volume18
Issue number35
Publication statusPublished - 27 Aug 2012
Peer-reviewedYes

External IDs

ORCID /0000-0002-2391-6025/work/159171907

Keywords

ASJC Scopus subject areas

Keywords

  • bismuth, cluster compounds, ionic liquids, polycations, ruthenium