Bis‐Olefin Based Crystalline Schlenk Hydrocarbon Diradicals with a Triplet Ground State

A modular approach for the synthesis of isolable crystalline Schlenk hydrocarbon diradicals from m ‐phenylene bridged electron‐rich bis‐triazaalkenes as synthons is reported. EPR spectroscopy confirms their diradical nature and triplet electronic structure by revealing a half‐field signal. A computa...

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Veröffentlicht in:Angewandte Chemie International Edition 2023-11, Vol.62 (45), p.e202311868-e202311868
Hauptverfasser: Saha, Priyanka, Chrysochos, Nicolas, Elvers, Benedict J., Pätsch, Sebastian, Uddin, Sk Imraj, Krummenacher, Ivo, Nandeshwar, Muneshwar, Mishra, Anshika, Raman, Karthik V., Rajaraman, Gopalan, Prabusankar, Ganesan, Braunschweig, Holger, Ravat, Prince, Schulzke, Carola, Jana, Anukul
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Sprache:eng
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Zusammenfassung:A modular approach for the synthesis of isolable crystalline Schlenk hydrocarbon diradicals from m ‐phenylene bridged electron‐rich bis‐triazaalkenes as synthons is reported. EPR spectroscopy confirms their diradical nature and triplet electronic structure by revealing a half‐field signal. A computational analysis confirms the triplet state to be the ground state. As a proof‐of‐principle for the modular methodology, the 4,6‐dimethyl‐ m ‐phenylene was further utilized as a coupling unit between two alkene motifs. The steric conjunction of the 4,6‐dimethyl groups substantially twists the substituents at the nonbonding electron bearing centers relative to the central coupling m ‐phenylene motif. As a result, the spin delocalization is decreased and the exchange coupling between the two unpaired spins, hence, significantly reduced. Notably, 108 years after Schlenk's m ‐phenylene‐bis(diphenylmethyl) synthesis as a diradical, for the first time we were able to isolate its derivative with the same spacer, i.e. m ‐phenylene, between two radical centers in a crystalline form.
ISSN:1433-7851
1521-3773
DOI:10.1002/anie.202311868