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Changing Directions: Influence of Ligand Electronics on the Directionality and Kinetics of Photoinduced Charge Transfer in Cu(I)Diimine Complexes

Lei Wang, Zhu‐Lin Xie, Brian T. Phelan, Vincent M. Lynch, Lin X. Chen, Karen L. Mulfort

2023Inorganic Chemistry20 citationsDOIOpen Access PDF

Abstract

A key challenge to the effective utilization of solar energy is to promote efficient photoinduced charge transfer, specifically avoiding unproductive, circuitous electron-transfer pathways and optimizing the kinetics of charge separation and recombination. We hypothesize that one way to address this challenge is to develop a fundamental understanding of how to initiate and control directional photoinduced charge transfer, particularly for earth-abundant first-row transition-metal coordination complexes, which typically suffer from relatively short excited-state lifetimes. Here, we report a series of functionalized heteroleptic copper(I)bis(phenanthroline) complexes, which have allowed us to investigate the directionality of intramolecular photoinduced metal-to-ligand charge transfer (MLCT) as a function of the substituent Hammett parameter. Ultrafast transient absorption suggests a complicated interplay of MLCT localization and solvent interaction with the Cu(II) center of the MLCT state. This work provides a set of design principles for directional charge transfer in earth-abundant complexes and can be used to efficiently design pathways for connecting the molecular modules to catalysts or electrodes and integration into systems for light-driven catalysis.

Topics & Concepts

ChemistryDiimineUltrafast laser spectroscopyPhotochemistryIntramolecular forceCharge (physics)SubstituentChemical physicsElectron transferExcited statePhotoinduced electron transferCatalysisStereochemistryAtomic physicsSpectroscopyOrganic chemistryPhysicsQuantum mechanicsCO2 Reduction Techniques and CatalystsPorphyrin and Phthalocyanine ChemistryMetal-Catalyzed Oxygenation Mechanisms
Changing Directions: Influence of Ligand Electronics on the Directionality and Kinetics of Photoinduced Charge Transfer in Cu(I)Diimine Complexes | Litcius