Excitation Energy-Dependent Branching Dynamics Determines Photostability of Iron(II)–Mesoionic Carbene Complexes

Photoactive metal complexes containing earth-abundant transition metals recently gained interest as photosensitizers in light-driven chemistry. In contrast to the traditionally employed ruthenium or iridium complexes, iron complexes developed to be promising candidates despite the fact that using ir...

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Published in:Inorganic chemistry 2021-06, Vol.60 (12), p.9157-9173
Main Authors: Nair, Shruthi S, Bysewski, Oliver A, Kupfer, Stephan, Wächtler, Maria, Winter, Andreas, Schubert, Ulrich S, Dietzek, Benjamin
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cited_by cdi_FETCH-LOGICAL-a328t-49433d3a33fd2a3f23fd3a147a3055f357c0262b5472e67295e7965b427dbadf3
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container_end_page 9173
container_issue 12
container_start_page 9157
container_title Inorganic chemistry
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creator Nair, Shruthi S
Bysewski, Oliver A
Kupfer, Stephan
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Winter, Andreas
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Dietzek, Benjamin
description Photoactive metal complexes containing earth-abundant transition metals recently gained interest as photosensitizers in light-driven chemistry. In contrast to the traditionally employed ruthenium or iridium complexes, iron complexes developed to be promising candidates despite the fact that using iron complexes as photosensitizers poses an inherent challenge associated with the low-lying metal-centered states, which are responsible for ultrafast deactivation of the charge-transfer states. Nonetheless, recent developments of strongly σ-donating carbene ligands yielded highly promising systems, in which destabilized metal-centered states resulted in prolonged lifetimes of charge-transfer excited states. In this context, we introduce a series of novel homoleptic Fe–triazolylidene mesoionic carbene complexes. The excited-state properties of the complexes were investigated by time-resolved femtosecond transient absorption spectroscopy and quantum chemical calculations. Pump wavelength-dependent transient absorption reveals the presence of distinct excited-state relaxation pathways. We relate the excitation-wavelength-dependent branching of the excited-state dynamics into various reaction channels to solvent-dependent photodissociation following the population of dissociative metal centered states upon excitation at 400 nm.
doi_str_mv 10.1021/acs.inorgchem.1c01166
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title Excitation Energy-Dependent Branching Dynamics Determines Photostability of Iron(II)–Mesoionic Carbene Complexes
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