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Dynamical strengthening of covalent and non-covalent molecular interactions by nuclear quantum effects at finite temperature

Huziel E. Sauceda, Valentin Vassilev-Galindo, Stefan Chmiela, Klaus-Robert Müller, Alexandre Tkatchenko

2021Nature Communications49 citationsDOIOpen Access PDF

Abstract

Abstract Nuclear quantum effects (NQE) tend to generate delocalized molecular dynamics due to the inclusion of the zero point energy and its coupling with the anharmonicities in interatomic interactions. Here, we present evidence that NQE often enhance electronic interactions and, in turn, can result in dynamical molecular stabilization at finite temperature. The underlying physical mechanism promoted by NQE depends on the particular interaction under consideration. First, the effective reduction of interatomic distances between functional groups within a molecule can enhance the n → π * interaction by increasing the overlap between molecular orbitals or by strengthening electrostatic interactions between neighboring charge densities. Second, NQE can localize methyl rotors by temporarily changing molecular bond orders and leading to the emergence of localized transient rotor states. Third, for noncovalent van der Waals interactions the strengthening comes from the increase of the polarizability given the expanded average interatomic distances induced by NQE. The implications of these boosted interactions include counterintuitive hydroxyl–hydroxyl bonding, hindered methyl rotor dynamics, and molecular stiffening which generates smoother free-energy surfaces. Our findings yield new insights into the versatile role of nuclear quantum fluctuations in molecules and materials.

Topics & Concepts

Chemical physicsDelocalized electronvan der Waals forcePolarizabilityMolecular dynamicsPhysicsQuantumCoupling (piping)Molecular physicsMoleculeLocalized molecular orbitalsAtomic orbitalMolecular orbitalNon-covalent interactionsInteraction energyCovalent bondAtomic physicsMaterials scienceChemistryInteratomic potentialStiffeningAdiabatic processPotential energyMolecular motorQuantum chemistryElectronic structureCharge (physics)Degenerate energy levelsQuantum decoherenceCoulombCrystallography and molecular interactionsSpectroscopy and Quantum Chemical StudiesQuantum, superfluid, helium dynamics