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Electronic Structures of Cr(III) and V(II) Polypyridyl Systems: Undertones in an Isoelectronic Analogy

Justin P. Joyce, Romeo I. Portillo, Collette M. Nite, Jacob M. Nite, Michael Nguyen, Anthony K. Rappé, Matthew P. Shores

2021Inorganic Chemistry14 citationsDOI

Abstract

A recently reported description of the photophysical properties of V2+ polypyridyl systems has highlighted several distinctions between isoelectronic, d3, Cr3+, and V2+ tris-homoleptic polypyridyl complexes of 2,2′-bipyridine (bpy) and 1,10-phenanthroline (phen). Here, we combine theory and experimental data to elucidate the differences in electronic structures. We provide the first crystallographic structures of the V2+ complexes [V(bpy)3](BPh4)2 (V-1B) and [V(phen)3](OTf)2 (V2) and observe pronounced trigonal distortion relative to analogous Cr3+ complexes. We use electronic absorption spectroscopy in tandem with TD-DFT computations to assign metal–ligand charge transfer (MLCT) properties of V-1B and V2 that are unique from the intraligand transitions, 4(3IL), solely observed in Cr3+ analogues. Our newly developed natural transition spin density (NTρα,β) plots characterize both the Cr3+ and V2+ absorbance properties. A multideterminant approach to DFT assigns the energy of the 2E state of V-1B as stabilized through electron delocalization. We find that the profound differences in excited state lifetimes for Cr3+ and V2+ polypyridyls arise from differences in the characters of their lowest doublet states and pathways for intersystem crossing, both of which stem from trigonal structural distortion and metal–ligand π-covalency.

Topics & Concepts

ChemistryDelocalized electronHomolepticTrigonal prismatic molecular geometryExcited stateCrystallographyIntersystem crossingLigand field theoryElectronic structureDensity functional theoryLigand (biochemistry)Ground stateComputational chemistryMetalAtomic physicsSinglet stateIonCrystal structureOctahedronOrganic chemistryPhysicsBiochemistryReceptorMetal complexes synthesis and propertiesPorphyrin and Phthalocyanine ChemistryPhotochemistry and Electron Transfer Studies
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