Exceptional Excited-State Lifetime of an Iron(II)–<i>N</i>-Heterocyclic Carbene Complex Explained

Fredin, Lisa A.; Pápai, Mátyás; Rozsályi, Emese; Vankó, György; Wärnmark, Kenneth; Sundström, Villy; Persson, Petter

doi:10.1021/jz500829w

Cited by 130 publications

(210 citation statements)

References 24 publications

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“…From the excited-state relaxation perspective, it is well known that the elongation of the Fe-ligand distance is a critical step in the spin cross-over process, and consequently, also for the MLCT/MC deactivation [27]. This is in line with the simple interpretation of the iron-based MC states as involving the population of the e g (i.e., antibonding orbitals).…”

Section: Effects Of Alkyl Substituentssupporting

confidence: 55%

“…Here, in addition to tuning of the ground-state properties (ligand field splitting), design strategies that influence the nonadiabatic excited-state relaxation kinetics [27] remain unexplored for the moment.…”

Section: Discussionmentioning

confidence: 99%

“…Recently, as shown by Wärnmark and coworkers, N-heterocyclic carbenes (NHC) have been proven to promote notable improvements of 3 MLCT lifetimes, thanks to strong σ-donating effects inducing the destabilization of MC states [25][26][27][28]. While no DSSCs have been built from the newly designed complexes, this work has fostered the revival of research towards the development of iron-based sensitizers for DSSCs, which has been almost asleep since the pioneering works by Ferrere using the Fe(dcbpy) 2 (CN) 2 dye [14].…”

Section: Introductionmentioning

confidence: 99%

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NHC-Based Iron Sensitizers for DSSCs

et al. 2018

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Nanostructured dye-sensitized solar cells (DSSCs) are promising photovoltaic devices because of their low cost and transparency. Ruthenium polypyridine complexes have long been considered as lead sensitizers for DSSCs, allowing them to reach up to 11% conversion efficiency. However, ruthenium suffers from serious drawbacks potentially limiting its widespread applicability, mainly related to its potential toxicity and scarcity. This has motivated continuous research efforts to develop valuable alternatives from cheap earth-abundant metals, and among them, iron is particularly attractive. Making iron complexes applicable in DSSCs is highly challenging due to an ultrafast deactivation of the metal-ligand charge-transfer (MLCT) states into metal-centered (MC) states, leading to inefficient injection into TiO 2 . In this review, we present our latest developments in the field using Fe(II)-based photosensitizers bearing N-heterocyclic carbene (NHC) ligands, and their use in DSSCs. Special attention is paid to synthesis, photophysical, electrochemical, and computational characterization.

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Section: Effects Of Alkyl Substituentssupporting

confidence: 55%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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NHC-Based Iron Sensitizers for DSSCs

et al. 2018

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“…This is one of the reasons why more than twenty years after its discovery, LIESST e↵ect is still at the very center of the SCO research. The advances in short pulsed lasers enables researchers to extract information on the deactivation mechanism [15][16][17][18][19][20][21][22][23] and theoretical studies also contributed to the understanding of LIESST in octhedral Fe(II) complexes [60][61][62]. For Fe(III) complexes, the light irradiation induces ligand-tometal charge transfer transition (LMCT).…”

Section: Liesstmentioning

confidence: 99%

“…Therefore, the synthesis of systems with bistability under standard conditions for which switching is fast and both states are su ciently long-lived (i.e., persistent) has become increasingly important over the last 50 years. In this area of research, the interconversion between two di↵erent spin states that can be triggered by light irradiation is especially important [15][16][17][18][19][20][21][22][23]. The bistability in molecular magnets involves the M S components of a given spin state and the population of the bistable states can be controlled by the application of an external magnetic field.…”

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confidence: 99%

From Mononuclear to Dinuclear: Magnetic Properties of Transition Metal Complexes

Saureu¹

2016

ioChem-BD Computational Chemistry Datasets

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Kovalenzgetriebene Erhaltung lokaler Ladungsdichten in einem durch Metall‐Ligand‐Ladungstransfer angeregten Eisenphotosensibilisator

et al. 2019

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Es wird gezeigt, dass Kovalenz die Ladungstrennung nachP hotooxidation des Metallzentrums in einem Metall-Ligand-Ladungstransferzustand eines Eisensensibilisators ausgleicht. Die Fähigkeit der Liganden zur s-Bindung kompensiert den Verlust einer 3d-Elementarladung am Eisenzentrum, sodass die ursprüngliche Ladungsdichte und lokale Edelgaskonfiguration am Metall erhalten bleibt. Diese Erkenntnisse werden durche lementspezifische und orbitalselektive zeitaufgelçste Rçntgenabsorptionsspektroskopie an der Eisen-L-Kante ermçglicht. Die Population von Valenzorbitalen um das Metallzentrum wird so direkt zugänglich. Mit Hilfe von Dichtefunktionaltheorie stellen wir fest, dass das Bild einer lokalisierten Ladungstrennung inadäquat ist. Die ungepaarte Spindichte bietet jedoche ine geeignete Beschreibung des mit dem Elektronentransferprozess assoziierten Elektron-Loch-Paares.

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Exceptional Excited-State Lifetime of an Iron(II)–N-Heterocyclic Carbene Complex Explained

Cited by 130 publications

References 24 publications

NHC-Based Iron Sensitizers for DSSCs

NHC-Based Iron Sensitizers for DSSCs

From Mononuclear to Dinuclear: Magnetic Properties of Transition Metal Complexes

Kovalenzgetriebene Erhaltung lokaler Ladungsdichten in einem durch Metall‐Ligand‐Ladungstransfer angeregten Eisenphotosensibilisator

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