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Running in the Family: Molecular Factors controlling Spin Crossover of Iron(II) Complexes with Schiff‐base like Ligands

Sophie Schönfeld, Wolfgang Bauer, Sebastian Thallmair, Gerald Hörner, Birgit Weber

2020Zeitschrift für anorganische und allgemeine Chemie11 citationsDOIOpen Access PDF

Abstract

Abstract Tailoring of spin state energetics of transition metal complexes and even the correct prediction of the resulting spin state is still a challenging task, both for the experimentalist and the theoretician. Apart from the complexity in the solid state imposed by packing effects, molecular factors of the spin state ordering are required to be identified and quantified on equal rights. In this work we experimentally record the spin states and SCO energies within an eight‐member substitution‐series of N 4 O 2 ligated iron(II) complexes both in the solid state (SQUID magnetometry and single‐crystal X‐ray crystallography) and in solution (VT‐NMR). The experimental survey is complemented by exhaustive theoretical modelling of the molecular and electronic structure of the open‐chain N 4 O 2 family and its macrocyclic N 6 congeners through density‐functional theory methods. Ligand topology is identified as the leading factor defining ground‐state multiplicity of the corresponding iron(II) complexes. Invariably the low‐spin state is sterically trapped in the macrocycles, whereas subtle substitution effects allow for a molecular fine tuning of the spin state in the open‐chain ligands. Factorization of computed relative SCO energies holds promise for directed design of future SCO systems.

Topics & Concepts

Spin crossoverSpin statesSchiff baseChemistryCrystallographySteric effectsDensity functional theoryLigand (biochemistry)Homologous seriesChemical physicsComputational chemistryTopology (electrical circuits)StereochemistryInorganic chemistryMathematicsCombinatoricsReceptorBiochemistryMagnetism in coordination complexesMetal-Catalyzed Oxygenation MechanismsMetal complexes synthesis and properties
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