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A crystalline radical cation derived from Thiele’s hydrocarbon with redox range beyond 1 V

Ying Kai Loh, Petra Vasko, Caitilín McManus, Andreas Heilmann, William K. Myers, Simon Aldridge

2021Nature Communications24 citationsDOIOpen Access PDF

Abstract

Abstract Thiele’s hydrocarbon occupies a central role as an open-shell platform for new organic materials, however little is known about its redox behaviour. While recent synthetic approaches involving symmetrical carbene substitution of the CPh 2 termini yield isolable neutral/dicationic analogues, the intervening radical cations are much more difficult to isolate, due to narrow compatible redox ranges (typically < 0.25 V). Here we show that a hybrid BN/carbene approach allows access to an unsymmetrical analogue of Thiele’s hydrocarbon 1 , and that this strategy confers markedly enhanced stability on the radical cation. 1 • + is stable across an exceptionally wide redox range (> 1 V), permitting its isolation in crystalline form. Further single-electron oxidation affords borenium dication 1 2+ , thereby establishing an organoboron redox system fully characterized in all three redox states. We perceive that this strategy can be extended to other transient organic radicals to widen their redox stability window and facilitate their isolation.

Topics & Concepts

RedoxDicationCarbeneChemistryRadicalHydrocarbonRadical ionYield (engineering)PhotochemistryCombinatorial chemistryOrganic chemistryCatalysisIonMaterials scienceMetallurgyOrganoboron and organosilicon chemistryN-Heterocyclic Carbenes in Organic and Inorganic ChemistryRadical Photochemical Reactions
A crystalline radical cation derived from Thiele’s hydrocarbon with redox range beyond 1 V | Litcius