Add to ORKGCesium-137 is a major byproduct of nuclear energy generation and is environmentally threatening due to its long half-life and affinity for naturally occurring micaceous clays. Recent experimental observations of illite and phlogopite mica indicate that Cs+ is capable of exchanging with K+ bound in the anhydrous interlayers of layered silicates, forming sharp exchange fronts, leading to interstratification of Cs- and K-illite. We present here a coarse-grained (CG) model of the anhydrous illite interlayer developed using iterative Boltzmann inversion that qualitatively and quantitatively reproduces features of a previously proposed feedback mechanism of ion exchange. The CG model represents a 70-fold speedup over all-atom models of clay syste...
From PubMed via Jisc Publications RouterHistory: received 2020-06-18, accepted 2021-07-06Publication...
Predicting the fate of radioactive waste stored in a clay formation requires a good understanding of...
International audienceAdsorption and mobility of radioactive Cs+ isotopes in soil are among the most...
The mobility of radiocesium in the environment is largely mediated by cation exchange in micaceous c...
The charged surfaces of micaceous minerals, especially illite, regulate the mobility of the major ra...
AbstractRadioactive caesium (chiefly 137Cs) is a major environmental pollutant. The mobility of Cs i...
Ion exchange in nanoporous clay-rich media plays an integral role in water, nutrient, and contaminan...
International audienceWe study the origin of the ionic exchange enthalpy in montmorillonite clays us...
Cesium adsorption onto Illite has been widely studied, because this clay is especially relevant for ...
Radioactive caesium (chiefly 137Cs) is a major environmental pollutant. The mobility of Cs in temper...
The primary objective of our research is the development of molecular models of ion exchange on clay...
International audienceThe Callovo-Oxfordian clay formation (COx) is the potential host rock for long...
'The primary focus of the research is the development of molecular theories of ion binding to clay m...
Abstract--Plane-wave pseudopotential total energy calculations have been applied to investigate the ...
The collapse of clay interlayers is an important discussion in soil science. Due to the Fukushima D...
From PubMed via Jisc Publications RouterHistory: received 2020-06-18, accepted 2021-07-06Publication...
Predicting the fate of radioactive waste stored in a clay formation requires a good understanding of...
International audienceAdsorption and mobility of radioactive Cs+ isotopes in soil are among the most...
The mobility of radiocesium in the environment is largely mediated by cation exchange in micaceous c...
The charged surfaces of micaceous minerals, especially illite, regulate the mobility of the major ra...
AbstractRadioactive caesium (chiefly 137Cs) is a major environmental pollutant. The mobility of Cs i...
Ion exchange in nanoporous clay-rich media plays an integral role in water, nutrient, and contaminan...
International audienceWe study the origin of the ionic exchange enthalpy in montmorillonite clays us...
Cesium adsorption onto Illite has been widely studied, because this clay is especially relevant for ...
Radioactive caesium (chiefly 137Cs) is a major environmental pollutant. The mobility of Cs in temper...
The primary objective of our research is the development of molecular models of ion exchange on clay...
International audienceThe Callovo-Oxfordian clay formation (COx) is the potential host rock for long...
'The primary focus of the research is the development of molecular theories of ion binding to clay m...
Abstract--Plane-wave pseudopotential total energy calculations have been applied to investigate the ...
The collapse of clay interlayers is an important discussion in soil science. Due to the Fukushima D...
From PubMed via Jisc Publications RouterHistory: received 2020-06-18, accepted 2021-07-06Publication...
Predicting the fate of radioactive waste stored in a clay formation requires a good understanding of...
International audienceAdsorption and mobility of radioactive Cs+ isotopes in soil are among the most...