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Reversible Single Electron Redox Steps Convert Polycycles with a C 3 P 3 Core to a Planar Triphosphinine.

Christian RödlClara SchweinzerZhongshu LiHansjörg Grützmacher
Published in: Angewandte Chemie (International ed. in English) (2023)
Reaction of the imidazolium-stabilized diphosphete-diide IDP with trityl phosphaalkyne affords a mixture which contains the molecules 1 a and 1 b with a central C 3 P 3 core, which formally carries a two-fold negative charge. In order to avoid the formation of an antiaromatic 8π electron system within a conjugated dianionic six-membered [C 3 P 3 ] 2- ring, 1 a adopts a bicyclic [3.1.0] and 1 b a tricyclic [2.2.0.0] structure which are in a dynamic equilibrium. 1 a, b can be reversibly oxidized to a triphosphinine dication [5] 2+ with a central flat aromatic six-membered C 3 P 3 ring. This two-electron redox reaction occurs in two single-electron transfer steps via the 7π-radical cation [4]⋅ + , which could also be isolated and fully characterized. The profound reversible structural change observed for the two-electron redox couple [5] 2+ /1 a, b is in sharp contrast to the C 6 H 6 /[C 6 H 6 ] 2- couple, which undergoes only a modest structural deformation.
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