Litcius/Paper detail

Intramolecular London Dispersion Interactions Do Not Cancel in Solution

Jan M. Schümann, J. Philipp Wagner, André K. Eckhardt, Henrik Quanz, Peter R. Schreiner

2020Journal of the American Chemical Society82 citationsDOI

Abstract

We present a comprehensive experimental study of a di-t-butyl-substituted cyclooctatetraene-based molecular balance to measure the effect of 16 different solvents on the equilibrium of folded versus unfolded isomers. In the folded 1,6-isomer, the two t-butyl groups are in close proximity (H···H distance ≈ 2.5 Å), but they are far apart in the unfolded 1,4-isomer (H···H distance ≈ 7 Å). We determined the relative strengths of these noncovalent intramolecular σ–σ interactions via temperature-dependent nuclear magnetic resonance measurements. The origins of the interactions were elucidated with energy decomposition analysis at the density functional and ab initio levels of theory, pinpointing the predominance of London dispersion interactions enthalpically favoring the folded state in any solvent measured.

Topics & Concepts

ChemistryIntramolecular forceCyclooctatetraeneNon-covalent interactionsDispersion (optics)Computational chemistryAb initioDensity functional theoryInteraction energyAb initio quantum chemistry methodsLondon dispersion forceChemical physicsStereochemistryMoleculeHydrogen bondOrganic chemistryvan der Waals forceQuantum mechanicsPhysicsCrystallography and molecular interactionsSynthesis and Properties of Aromatic CompoundsAdvanced Chemical Physics Studies