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Leveraging Intramolecular π-Stacking to Access an Exceptionally Long-Lived <sup>3</sup>MC Excited State in an Fe(II) Carbene Complex

Robert J. Ortiz, Rajarshi Mondal, James K. McCusker, David E. Herbert

2025Journal of the American Chemical Society23 citationsDOIOpen Access PDF

Abstract

The ability to manipulate excited-state decay cascades using molecular structure is essential to the application of abundant-metal photosensitizers and chromophores. Ligand design has yielded some spectacular results elongating charge-transfer excited state lifetimes of Fe(II) coordination complexes, but triplet metal-centered ( 3 MC) excited states─recently demonstrated to be critical to the photoactivity of isoelectronic Co(III) polypyridyls─have to date remained elusive, with temporally isolable examples limited to the picosecond regime. With this report, we show how strong-field donors and intramolecular π-stacking can conspire to stabilize a long-lived 3 MC excited state for a remarkable 4.1 ± 0.3 ns in fluid solution at ambient temperature. Analysis of variable-temperature time-resolved absorption data using theoretical models ranging from Arrhenius to semiclassical Marcus theory, combined with computational modeling and X-ray crystallography, reveal a Jahn–Teller stabilized excited state with a high activation barrier for ground-state recovery. The net result is a chromophore with a 3 MC excited-state lifetime that is orders of magnitude longer than anything yet observed for an Fe(II) complex.

Topics & Concepts

ChemistryCarbeneIntramolecular forceExcited stateStackingPhotochemistryCrystallographyAtomic physicsStereochemistryCatalysisPhysicsOrganic chemistryRadical Photochemical ReactionsPhotochemistry and Electron Transfer StudiesCatalytic C–H Functionalization Methods
Leveraging Intramolecular π-Stacking to Access an Exceptionally Long-Lived <sup>3</sup>MC Excited State in an Fe(II) Carbene Complex | Litcius