Electron delocalization in vinyl ruthenium substituted cyclophanes: Assessment of the through-space and the through-bond pathways

Philipp Mücke, Manfred Zabel, Ruth Edge, David Collison, Sébastien Clément, Stanislav Záliš, Rainer F. Winter

Research output: Contribution to journalArticlepeer-review

Abstract

Pseudo-para[2.2]paracyclophane- and [2.1]orthocyclophane-bridged diruthenium complexes 2 and 3 with two interlinked electroactive styryl ruthenium moieties have been prepared and investigated. Both complexes undergo two reversible consecutive one-electron oxidation processes which are separated by 270 or 105 mV. Stepwise electrolysis of the neutral complexes to first the mixed-valent radical cations and then the dioxidized dications under IR monitoring reveal incremental shifts of the charge-sensitive Ru(CO) bands and allow for an assignment of their radical cations as moderately or very weakly coupled mixed-valent systems of class II according to Robin and Day. Ground-state delocalization in the mixed-valent forms of these complexes as based on the CO band shifts is considerably larger for the "closed" paracyclophane as for the "half-open" orthocyclophane. Experimental findings are backed by the calculated IR band patterns and spin density distributions for radical cations of slightly simplified model complexes 2 Me+ and 3 Me+ with the P iPr 3 ligands replaced by PMe 3. Radical cations 2 + and 3 + feature a characteristic NIR band that is neither present in their neutral or fully oxidized forms nor in the radical cation of the monoruthenium [2.2]paracyclophane complex 1 with just one vinyl ruthenium moiety. These bands are thus assigned as intervalence charge-transfer (IVCT) transitions. Our results indicate that, for the radical cations, electronic coupling "through-space" via the stacked styrene decks is significantly more efficient than the "through-bond" pathway.

Original languageEnglish
Pages (from-to)3186-3197
Number of pages12
JournalJournal of Organometallic Chemistry
Volume696
Issue number20
DOIs
Publication statusPublished - 1 Oct 2011

Keywords

  • Cyclophanes
  • Electrochemistry
  • Mixed-valent
  • Ruthenium
  • Spectroelectrochemistry
  • Vinyl complexes

Research Beacons, Institutes and Platforms

  • Dalton Nuclear Institute

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