Transport Properties of Fluids in Micropores by Molecular Dynamics Simulation

The present article provides the description of the solvation forces between large spheres in a fluid. The molecular dynamics (MD) method was applied to the relatively simple systems in which a pair of structureless macroparticles, either solvophobic or solvophilic, is immersed in a simple fluid of

## Abstract Intermolecular interaction energy data for the methane dimer have been calculated at a spectroscopic accuracy and employed to construct an __ab initio__ potential energy surface (PES) for molecular dynamics (MD) simulations of fluid methane properties. The full potential curves of the m

This article describes the collisional dynamics (CD) method adapted for molecules with geometrical constraints within a description using Cartesian coordinates for the atoms. In the CD method, stochastic collisions with virtual particles are included in usual molecular dynamics simulations to couple

A technique of time reversal is used to simulate the trapping-site structure of O isolated in an argon matrix. It is found that the most probable 3 trapping site is single substitutional. The UV photodissociation of O in Ar 3 matrices is simulated by molecular dynamics. It is shown that the photolys

In this paper, a method of simulating the docking of small flexible ligands to flexible receptors in water is reported. The method is based on molecular dynamics simulations and is an extension of an algorithm previously reported by Di Nola et al. (Di Nola et al., Proteins 1994;19:174-182). The meth