Add to ORKGWe present a new method for simulating ungrounded charged metal slabs inside an electrolyte solution. The ions are free to move between the interior and exterior regions of the slab–electrolyte system. This leads to polarization of both sides of each slab, with a distinct surface charge induced on each surface. Our simulation method is based on the exact solution of the Poisson equation using periodic Green functions. To efficiently perform the calculations, we decouple the electrostatic energy due to surface polarization from that of purely Coulomb interaction between the ions. This allows us to combine a fast 3D Ewald summation technique with an equally fast calculation of polarization. As a demonstration of the method, we calculate ionic...
In this Dissertation, we present a new method to study metal surfaces inside an electrolyte solution...
Density functional theory (DFT) is often used for simulating extended materials such as infinite cry...
We present an efficient method for simulating Coulomb systems confined by metal electrodes. The appr...
We present a simulation method to study electrolyte solutions in a dielectric slab geometry using a ...
We present a method to efficiently simulate nano-patterned charged surfaces inside an electrolyte so...
We present a new approach to efficiently simulate electrolytes confined between infinite charged wal...
We present an efficient approach for simulating Coulomb systems confined by planar polarizable surfa...
We present an efficient approach for simulating Coulomb systems confined by planar polarizable surfa...
International audienceElectrochemistry is central to many applications, ranging from biology to ener...
We study, using Density Functional theory (DFT) and Monte Carlo simulations, aqueous electrolyte sol...
International audienceA better understanding of interfacial mechanisms is needed to improve the perf...
We present a useful methodology to simulate ionic fluids confined by two charged and perfectly condu...
In this Dissertation, we present a new method to study metal surfaces inside an electrolyte solution...
Density functional theory (DFT) is often used for simulating extended materials such as infinite cry...
We present an efficient method for simulating Coulomb systems confined by metal electrodes. The appr...
We present a simulation method to study electrolyte solutions in a dielectric slab geometry using a ...
We present a method to efficiently simulate nano-patterned charged surfaces inside an electrolyte so...
We present a new approach to efficiently simulate electrolytes confined between infinite charged wal...
We present an efficient approach for simulating Coulomb systems confined by planar polarizable surfa...
We present an efficient approach for simulating Coulomb systems confined by planar polarizable surfa...
International audienceElectrochemistry is central to many applications, ranging from biology to ener...
We study, using Density Functional theory (DFT) and Monte Carlo simulations, aqueous electrolyte sol...
International audienceA better understanding of interfacial mechanisms is needed to improve the perf...
We present a useful methodology to simulate ionic fluids confined by two charged and perfectly condu...
In this Dissertation, we present a new method to study metal surfaces inside an electrolyte solution...
Density functional theory (DFT) is often used for simulating extended materials such as infinite cry...
We present an efficient method for simulating Coulomb systems confined by metal electrodes. The appr...