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Assignment of individual structures from intermetalloid nickel gallium cluster ensembles.

Maximilian MuhrJohannes StephanLena StaigerKarina HemmerMax SchützPatricia HeißChristian JandlMirza CokojaTim KratkySebastian GüntherDominik HuberSamia KahlalJean-Yves SaillardOlivier CadorAugusto C H Da SilvaJuarez L F Da SilvaJanos MinkChristian GemelRoland A Fischer
Published in: Communications chemistry (2024)
Poorly selective mixed-metal cluster synthesis and separation yield reaction solutions of inseparable intermetalloid cluster mixtures, which are often discarded. High-resolution mass spectrometry, however, can provide precise compositional data of such product mixtures. Structure assignments can be achieved by advanced computational screening and consideration of the complete structural space. Here, we experimentally verify structure and composition of a whole cluster ensemble by combining a set of spectroscopic techniques. Our study case are the very similar nickel/gallium clusters of M 12 , M 13 and M 14 core composition Ni 6+x Ga 6+y (x + y ≤ 2). The rationalization of structure, bonding and reactivity is built upon the organometallic superatom cluster [Ni 6 Ga 6 ](Cp*) 6  = [Ga 6 ](NiCp*) 6 (1; Cp* = C 5 Me 5 ). The structural conclusions are validated by reactivity tests using carbon monoxide, which selectively binds to Ni sites, whereas (triisopropylsilyl)acetylene selectively binds to Ga sites.
Keyphrases
  • pet ct
  • high resolution mass spectrometry
  • liquid chromatography
  • metal organic framework
  • reduced graphene oxide
  • mass spectrometry
  • high resolution
  • ms ms
  • data analysis
  • gas chromatography