Recent molecular simulations of the electric double layer between an aqueous and a metallic phase are reviewed. Several trends in the field can be identified: (i) the increasing use of ab initio simulation methods, most notably the Car-Parrinello method, allows to combine a statistical mechanical description of the double layer with a description of elementary chemical processes on the electronic structure level; (ii) the application of free-energy methods in one and (recently) two dimensions to describe chemical reactivity within and beyond the framework of the Marcus theory of electron transfer; and (iii) at high concentrations, direct simulations of two-phase systems with an aqueous solution and a charged or uncharged solid phase or surf...
A brief overview is given of some recent applications from our group of classical molecular dynamics...
Aqueous solutions and liquid metals in contact with other phases or components experience strong Cou...
The results of molecular dynamics simulations of the properties of water in an aqueous ionic solutio...
The application of molecular dynamics (MD) simulations of the interface between an aqueous electroly...
International audienceMany key industrial processes, from electricity production, conversion, and st...
ABSTRACT: Comparisons are made among Molecular Dynamics (MD), Classical Density Functional Theory (c...
Advances in parallel supercomputing now make possible molecular-based engineering and science calcul...
The experimental concept of simulating the metal-electrolyte interface by adsorption of solution com...
Molecular simulations of water using classical, molecular mechanic potential energy functions have e...
Molecular Dynamics (MD) computer simulation studies are reported for a system consisting of two mode...
The results of molecular dynamics simulations of the properties of water in an aqueous ionic solutio...
Combined ab initio/empirical forcefield molecular dynamics (QM/MM) simulations are considered to be ...
Recent developments in molecular theories and simulation of ions and polar molecules in water are re...
The structure of water on metal electrodes is addressed based on first-principles calculations. Spec...
An overview is given of different methods of modern computational chemistry, with emphasis on how, i...
A brief overview is given of some recent applications from our group of classical molecular dynamics...
Aqueous solutions and liquid metals in contact with other phases or components experience strong Cou...
The results of molecular dynamics simulations of the properties of water in an aqueous ionic solutio...
The application of molecular dynamics (MD) simulations of the interface between an aqueous electroly...
International audienceMany key industrial processes, from electricity production, conversion, and st...
ABSTRACT: Comparisons are made among Molecular Dynamics (MD), Classical Density Functional Theory (c...
Advances in parallel supercomputing now make possible molecular-based engineering and science calcul...
The experimental concept of simulating the metal-electrolyte interface by adsorption of solution com...
Molecular simulations of water using classical, molecular mechanic potential energy functions have e...
Molecular Dynamics (MD) computer simulation studies are reported for a system consisting of two mode...
The results of molecular dynamics simulations of the properties of water in an aqueous ionic solutio...
Combined ab initio/empirical forcefield molecular dynamics (QM/MM) simulations are considered to be ...
Recent developments in molecular theories and simulation of ions and polar molecules in water are re...
The structure of water on metal electrodes is addressed based on first-principles calculations. Spec...
An overview is given of different methods of modern computational chemistry, with emphasis on how, i...
A brief overview is given of some recent applications from our group of classical molecular dynamics...
Aqueous solutions and liquid metals in contact with other phases or components experience strong Cou...
The results of molecular dynamics simulations of the properties of water in an aqueous ionic solutio...