Understanding and tuning the electronic structure of pentalenides

Niko A. Jenek, Andreas Helbig, Stuart M. Boyt, Mandeep Kaur, Hugh J. Sanderson, Shaun B. Reeksting, Gabriele Kociok-Köhn, Holger Helten, Ulrich Hintermair

Research output: Contribution to journalArticlepeer-review

1 Citation (SciVal)

Abstract

Here we report the first example of systematic tuning of the electronic properties of dianionic pentalenides through a straightforward synthetic protocol which allows the controlled variation of substituents in the 1,3,4,6-positions to produce nine new compounds, representing the largest pentalenide study to date. Both electron-withdrawing as well as electron-donating aromatics have been incorporated to achieve different polarisations of the bicyclic 10π aromatic core as indicated by characteristic 1H and 13C NMR shifts and evaluated by DFT calculations including nucleus-independent chemical shift (NICS) scans, anisotropy of the induced current density (ACID) calculations, and natural bond orbital (NBO) charge distribution analysis. The introduction of methyl substituents to the pentalenide core required positional control in the dihydropentalene precursor to avoid exocyclic deprotonation during the metalation. Frontier orbital analyses showed arylated pentalenides to be slightly weaker donors but much better acceptor ligands than unsubstituted pentalenide. The coordination chemistry potential of our new ligands has been exemplified by the straightforward synthesis of a polarised anti-dirhodium(i) complex.

Original languageEnglish
JournalChemical Science
Early online date5 Jul 2024
DOIs
Publication statusE-pub ahead of print - 5 Jul 2024

Data Availability Statement

The datasets supporting this article have been uploaded as part of the ESI.‡

Funding

We thank the Royal Society (awards UF160458 and EA180091) and the University of Bath for funding this work. We also thank Tim Woodman and John Lowe from the University of Bath for advice and support with NMR spectroscopy as well as Kathryn Proctor for help with mass spectrometry. HH thanks the German Research Foundation (DFG) for funding through the Heisenberg Grant HE 6171/9-1 (468457264).

FundersFunder number
Deutsche Forschungsgemeinschaft (DFG)
University of Bath
Royal SocietyEA180091, UF160458
Deutschen Forschungsgemeinschaft (DFG)468457264, HE 6171/9-1

    ASJC Scopus subject areas

    • General Chemistry

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