Migration of Ionophores and Salts through a Water−Chloroform Liquid−Liquid Interface:  Molecular Dynamics−Potential of Mean Force Investigations

Abstract: We report a theoretical study on the liquid−liquid interfacial behavior of the species involved in the extraction of Cs+ by a calix[4]arene-crown6 ionophore (L):  the free Cs+ Pic- and Cs+ Cl- salts, the LCs+ and LCs+ Pic- complexes, and uncomplexed L. Based on molecular dynamics simulations, we calculated the free energies changes for migration from the interface into the aqueous and the organic phases, respectively. For free L and for the LCs+ complex, with or without Pic- counterion, an energy minimum is fo… Show more

“…Schweighofer and Benjamin [2,3], Lauterbach et al [4] and others noted the creation of "water fingers" trailing after transferring ions through the interface of immiscible or oil-water interfaces. Fernandes et al [5] found from their MD simulations that the Gibbs energy cost for ion transfer across the water/2-heptanone LLI increased with decreasing ion size.…”

Molecular dynamics simulation of surfactant effects on ion transport through a liquid–liquid interface between partially miscible liquids

“…Schweighofer and Benjamin [2,3], Lauterbach et al [4] and others noted the creation of "water fingers" trailing after transferring ions through the interface of immiscible or oil-water interfaces. Fernandes et al [5] found from their MD simulations that the Gibbs energy cost for ion transfer across the water/2-heptanone LLI increased with decreasing ion size.…”

Molecular dynamics simulation of surfactant effects on ion transport through a liquid–liquid interface between partially miscible liquids

“…[14] The use of molecular dynamics and Monte Carlo techniques has contributed enormously to the understanding of the surface properties and dynamics.…”

Molecular Dynamics Study of the Calcium Ion Transfer across the Water/Nitrobenzene Interface

“…these methods have been widely used for a number of non-ionic [19][20][21][22][23][24][25][26][27][28] and ionic penetrants [29][30][31][32][33][34][35][36][37][38][39][40][41][42][43][44] at various fluid interfaces.…”

Calculation of the intrinsic solvation free energy profile of methane across a liquid/liquid interface in computer simulations