Litcius/Paper detail

Constrained dipole moment density functional theory for charge distributions in force fields for the study of molecular fluids

Javier Carmona‐Espíndola, Edgar Núñez-Rojas, Valeria García-Melgarejo, José L. Gázquez, José Alejandre

2020The Journal of Chemical Physics17 citationsDOI

Abstract

A new procedure, based on electronic structure calculations that only requires a dipole moment value for a given molecule as input and, from which the charges for all the atoms in it are uniquely determined, is developed and applied to the study of molecular fluids with classical dynamics. The dipole moment value considered for the isolated molecule is the one that reproduces the dielectric constant of its corresponding fluid. Following previous work, the Lennard-Jones parameters are determined to reproduce the liquid density and the surface tension at the liquid-vapor interface. The force field thus obtained leads to a reasonable description of several properties such as heats of vaporization, self-diffusion coefficients, shear viscosities, isothermal compressibilities, and volumetric expansion coefficients of pure substances.

Topics & Concepts

DipoleMoment (physics)ChemistryWork (physics)DielectricSurface tensionThermodynamicsVaporizationMolecular dynamicsForce field (fiction)Isothermal processDiffusionClassical mechanicsPhysicsComputational chemistryQuantum mechanicsOrganic chemistryPhase Equilibria and ThermodynamicsChemical Thermodynamics and Molecular StructureAdvanced Thermodynamics and Statistical Mechanics