Litcius/Paper detail

Systematic microsolvation approach with a cluster‐continuum scheme and conformational sampling

Gregor N. Simm, Paul L. Türtscher, Markus Reiher

2020Journal of Computational Chemistry80 citationsDOIOpen Access PDF

Abstract

Solvation is a notoriously difficult and nagging problem for the rigorous theoretical description of chemistry in the liquid phase. Successes and failures of various approaches ranging from implicit solvation modeling through dielectric continuum embedding and microsolvated quantum chemical modeling to explicit molecular dynamics highlight this situation. Here, we focus on quantum chemical microsolvation and discuss an explicit conformational sampling ansatz to make this approach systematic. For this purpose, we introduce an algorithm for rolling and automated microsolvation of solutes. Our protocol takes conformational sampling and rearrangements in the solvent shell into account. Its reliability is assessed by monitoring the evolution of the spread and average of the observables of interest.

Topics & Concepts

SolvationImplicit solvationQuantum chemicalMolecular dynamicsEmbeddingSampling (signal processing)Computer scienceStatistical physicsChemistryQuantumQuantum chemistryComputational chemistryObservableAlgorithmScheme (mathematics)Focus (optics)Dimension (graph theory)Protocol (science)Solvation shellImportance samplingAnsatzReliability (semiconductor)DielectricMathematicsMoleculeSolvent effectsThermochemistryConsistency (knowledge bases)DiscretizationUmbrella samplingTheoretical computer scienceAb initioAdvanced Chemical Physics StudiesMolecular spectroscopy and chiralitySpectroscopy and Quantum Chemical Studies