The use of computational methods for the study of clay minerals has become an essential adjunct to experimental techniques for the analysis of these poorly ordered materials. Although information may be obtained through conventional methods of analysis regarding macroscopic properties of clay minerals, information about the spatial arrangement of molecules within the interlayers is hard to obtain without the aid of computer simulation. The interpretation of experimental data from techniques such as solid-state nuclear magnetic resonance or neutron diffraction studies is considerably assisted by the application of computer simulations. Using a series of case studies, we review the techniques, applications and insight gained from the use of m...
The following six papers were presented at a meeting, held in September 1994, which reviewed some of...
International audienceThis paper reviews experimental nuclear magnetic resonance (NMR) and computati...
The authors carried out mol. simulations in the grand-canonical ensemble of water and cations in Wyo...
International audienceOver recent years, a steady increase has been noted in the publication of rese...
International audienceOver recent years, a steady increase has been noted in the publication of rese...
The micro- to nano-sized nature of layered materials, particularly characteristic of naturally occur...
Understanding and prediction of many natural and anthropogenic environmental processes ultimately de...
An interatomic potential model and a parameter set are presented for the molecular simulations of sy...
Atomistic simulations provide insight into the crystal structure of minerals, surfaces, and mineral-...
International audienceWe report a molecular simulation study of aqueous solutions at montmorillonite...
Abstract--Monte Carlo (MC) simulations of molecular structure in the interlayers of 2:1 Na-saturated...
Understanding and prediction of many natural and anthropogenic environmental processes ultimately de...
The primary objective of our research is the development of molecular models of ion exchange on clay...
Clay minerals are ubiquitous and readily accessible in the natural environment and consequently have...
The following six papers were presented at a meeting, held in September 1994, which reviewed some of...
International audienceThis paper reviews experimental nuclear magnetic resonance (NMR) and computati...
The authors carried out mol. simulations in the grand-canonical ensemble of water and cations in Wyo...
International audienceOver recent years, a steady increase has been noted in the publication of rese...
International audienceOver recent years, a steady increase has been noted in the publication of rese...
The micro- to nano-sized nature of layered materials, particularly characteristic of naturally occur...
Understanding and prediction of many natural and anthropogenic environmental processes ultimately de...
An interatomic potential model and a parameter set are presented for the molecular simulations of sy...
Atomistic simulations provide insight into the crystal structure of minerals, surfaces, and mineral-...
International audienceWe report a molecular simulation study of aqueous solutions at montmorillonite...
Abstract--Monte Carlo (MC) simulations of molecular structure in the interlayers of 2:1 Na-saturated...
Understanding and prediction of many natural and anthropogenic environmental processes ultimately de...
The primary objective of our research is the development of molecular models of ion exchange on clay...
Clay minerals are ubiquitous and readily accessible in the natural environment and consequently have...
The following six papers were presented at a meeting, held in September 1994, which reviewed some of...
International audienceThis paper reviews experimental nuclear magnetic resonance (NMR) and computati...
The authors carried out mol. simulations in the grand-canonical ensemble of water and cations in Wyo...