Add to ORKGA new methodology is proposed for accurate and effective incorporation of the matrix elements of the Madelung potential into ab initio embedded cluster calculations of macromolecules, polar crystals, and their surfaces. The electrostatic potential from the infinite crystal lattice is modeled by a finite number (usually several hundred) of point charges located on a surface enclosing the cluster. A special boundary condition and the boundary element method are used to determine positions and magnitudes of these point charges. The advantages and accuracy of this approach are demonstrated on examples of water adsorption on the NaCl-(001) surface and the electrostatic field in a zeolite pore. 1
Electrostatic potentials in ionic crystals have been calculated with direct summation of the Coulomb...
The molecular cluster model approach for the description of processes at surfaces is presented. It i...
Water adsorption is studied on medium-sized clusters of sodium chloride representing (100) and (110)...
The calculation of adsorption energies in zeolites in the cluster approximation has the advantage of...
The use of bare cluster models to understand the nature of zeolite-substrate interactions may be imp...
We present an embedded cluster approach for modeling interactions in zeolites and an application of ...
The classic Madelung problem is cast into an absolutely convergent form that is readily evaluated by...
In order to describe processes which are localized on a surface or inside the bulk of a solid, molec...
Because of the way the electrostatic potential is defined in a crystal, it is not possible to determ...
A methodology is presented which allows for self-consistent treatment of lattice polarization effect...
Cluster methods for studying chemisorption and also for studies of surface defect states have been m...
A new method has been developed for deriving parameters for the shell model of silica polymorphs. Al...
The effect of long-range Coulomb interactions on bulk properties is studied for the ionic solids NaB...
International audienceBased on the embedded-atom method (EAM), an analytical effective potential is ...
Electrostatic potentials in ionic crystals have been calculated with direct summation of the Coulomb...
The molecular cluster model approach for the description of processes at surfaces is presented. It i...
Water adsorption is studied on medium-sized clusters of sodium chloride representing (100) and (110)...
The calculation of adsorption energies in zeolites in the cluster approximation has the advantage of...
The use of bare cluster models to understand the nature of zeolite-substrate interactions may be imp...
We present an embedded cluster approach for modeling interactions in zeolites and an application of ...
The classic Madelung problem is cast into an absolutely convergent form that is readily evaluated by...
In order to describe processes which are localized on a surface or inside the bulk of a solid, molec...
Because of the way the electrostatic potential is defined in a crystal, it is not possible to determ...
A methodology is presented which allows for self-consistent treatment of lattice polarization effect...
Cluster methods for studying chemisorption and also for studies of surface defect states have been m...
A new method has been developed for deriving parameters for the shell model of silica polymorphs. Al...
The effect of long-range Coulomb interactions on bulk properties is studied for the ionic solids NaB...
International audienceBased on the embedded-atom method (EAM), an analytical effective potential is ...
Electrostatic potentials in ionic crystals have been calculated with direct summation of the Coulomb...
The molecular cluster model approach for the description of processes at surfaces is presented. It i...
Water adsorption is studied on medium-sized clusters of sodium chloride representing (100) and (110)...