We report a molecular modeling paradigm to describe silica polymerization reactions in aqueous solutions at conditions that are representative of realistic experimental processes like biosilicification or porous silica synthesis – i.e. at close to ambient temperatures and over a wide range of pH. The key point is to describe the Si-O-Si chemical bond formation and breakage processes through a continuous potential with a balance between attractive and repulsive interactions between suitably placed virtual sites and sticky particles. The simplicity of the model, its applicability in standard parallelized molecular dynamics codes, and its compatibility with the widely used MARTINI coarse-grained force-field allows for the study of systems cont...
Periodic Mesoporous Silicas (PMS) are one of the prime examples of templated porous materials – ther...
The agglomeration of silica nanoparticles in aqueous solution is investigated from molecular simulat...
Porous materials have long been a research interest due to their practical importance in traditional...
We report a molecular modelling paradigm to describe silica polymerization reactions in aqueous solu...
We present results of detailed atomistic modeling of the early stages of the synthesis of periodic m...
The use of bioinspired templates, such as polyamines and polypeptides, could lead to significant imp...
A novel coarse-grained (CG) model to study the self-assembly of silica/surfactant mesostructures dur...
A detailed theoretical understanding of the synthesis mechanism of periodic mesoporous silica has no...
Understanding the synthesis of periodic mesoporous silica (PMS) is crucial for a more efficient use ...
A novel coarse-grained (CG) model to study the self-assembly of silica/surfactant mesostructures dur...
The use of bio-inspired methods for production of mesoporous silicas could lead to significant impro...
Porous materials are of great importance in many fields due to their wide applications. An ongoing t...
A detailed theoretical understanding of the synthesis mechanism of periodic mesoporous silica has no...
International audienceSilica is a mineral applied in many fields of everyday life, for instance as a...
A detailed theoretical understanding of the synthesis mechanism of periodic mesoporous silica has no...
Periodic Mesoporous Silicas (PMS) are one of the prime examples of templated porous materials – ther...
The agglomeration of silica nanoparticles in aqueous solution is investigated from molecular simulat...
Porous materials have long been a research interest due to their practical importance in traditional...
We report a molecular modelling paradigm to describe silica polymerization reactions in aqueous solu...
We present results of detailed atomistic modeling of the early stages of the synthesis of periodic m...
The use of bioinspired templates, such as polyamines and polypeptides, could lead to significant imp...
A novel coarse-grained (CG) model to study the self-assembly of silica/surfactant mesostructures dur...
A detailed theoretical understanding of the synthesis mechanism of periodic mesoporous silica has no...
Understanding the synthesis of periodic mesoporous silica (PMS) is crucial for a more efficient use ...
A novel coarse-grained (CG) model to study the self-assembly of silica/surfactant mesostructures dur...
The use of bio-inspired methods for production of mesoporous silicas could lead to significant impro...
Porous materials are of great importance in many fields due to their wide applications. An ongoing t...
A detailed theoretical understanding of the synthesis mechanism of periodic mesoporous silica has no...
International audienceSilica is a mineral applied in many fields of everyday life, for instance as a...
A detailed theoretical understanding of the synthesis mechanism of periodic mesoporous silica has no...
Periodic Mesoporous Silicas (PMS) are one of the prime examples of templated porous materials – ther...
The agglomeration of silica nanoparticles in aqueous solution is investigated from molecular simulat...
Porous materials have long been a research interest due to their practical importance in traditional...