Litcius/Paper detail

Hexanuclear Ln<sub>6</sub>L<sub>6</sub> Complex Formation by Using an Unsymmetric Ligand

Daniel Bell, Tongtong Zhang, Niklas Geue, Ciarán J. Rogers, Perdita E. Barran, Alice M. Bowen, Louise S. Natrajan, Imogen A. Riddell

2023Chemistry - A European Journal13 citationsDOIOpen Access PDF

Abstract

Abstract Multinuclear, self‐assembled lanthanide complexes present clear opportunities as sensors and imaging agents. Despite the widely acknowledged potential of this class of supramolecule, synthetic and characterization challenges continue to limit systematic studies into their self‐assembly restricting the number and variety of lanthanide architectures reported relative to their transition metal counterparts. Here we present the first study evaluating the effect of ligand backbone symmetry on multinuclear lanthanide complex self‐assembly. Replacement of a symmetric ethylene linker with an unsymmetric amide at the center of a homoditopic ligand governs formation of an unusual Ln 6 L 6 complex with coordinatively unsaturated metal centers. The choice of triflate as a counterion, and the effect of ionic radii are shown to be critical for formation of the Ln 6 L 6 complex. The atypical Ln 6 L 6 architecture is characterized using a combination of mass spectrometry, luminescence, DOSY NMR and EPR spectroscopy measurements. Luminescence experiments support clear differences between comparable Eu 6 L 6 and Eu 2 L 3 complexes, with relatively short luminescent lifetimes and low quantum yields observed for the Eu 6 L 6 structure indicative of non‐radiative decay processes. Synthesis of the Gd 6 L 6 analogue allows three distinct Gd⋯Gd distance measurements to be extracted using homo‐RIDME EPR experiments.

Topics & Concepts

LanthanideLuminescenceLigand (biochemistry)CounterionElectron paramagnetic resonanceChemistryTrifluoromethanesulfonateIonic bondingCrystallographyMaterials scienceIonNuclear magnetic resonanceOrganic chemistryPhysicsBiochemistryOptoelectronicsReceptorCatalysisLanthanide and Transition Metal ComplexesMagnetism in coordination complexesOrganometallic Complex Synthesis and Catalysis