Periodic Mesoporous Silicas (PMS) are one of the prime examples of templated porous materials – there is a clear connection between the porous network structure and the supramolecular assemblies formed by surfactant templates. This opens the door for a high degree of control over the material properties by tuning the synthesis conditions, and has led to their application in a wide range of fields, from gas separation and catalysis to drug delivery. However, such control has not yet come to full fruition, largely because a detailed understanding of the synthesis mechanism of these materials remains elusive. In this context, molecular modelling studies of the self-assembly of silica/surfactant mesophases have arisen at the turn of the century...
Porous materials have long been a research interest due to their practical importance in traditional...
Bio-inspired methods offer a great alternative to design high-value mesoporous silica under more env...
A novel coarse-grained (CG) model to study the self-assembly of silica/surfactant mesostructures dur...
Periodic Mesoporous Silicas (PMS) are one of the prime examples of templated porous materials – ther...
We present results of detailed atomistic modeling of the early stages of the synthesis of periodic m...
A detailed theoretical understanding of the synthesis mechanism of periodic mesoporous silica has no...
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 ...
The use of bioinspired templates, such as polyamines and polypeptides, could lead to significant imp...
A coarse-grained (CG) model is developed to reproduce the early stages of the templated synthesis of...
The use of bio-inspired methods for production of mesoporous silicas could lead to significant impro...
A detailed theoretical understanding of the synthesis mechanism of periodic mesoporous silica has no...
A novel coarse-grained (CG) model to study the self-assembly of silica/surfactant mesostructures dur...
Porous materials have long been a research interest due to their practical importance in traditional...
Molecular dynamics simulations of a coarse-grained model are used to study the formation mechanism o...
Porous materials have long been a research interest due to their practical importance in traditional...
Bio-inspired methods offer a great alternative to design high-value mesoporous silica under more env...
A novel coarse-grained (CG) model to study the self-assembly of silica/surfactant mesostructures dur...
Periodic Mesoporous Silicas (PMS) are one of the prime examples of templated porous materials – ther...
We present results of detailed atomistic modeling of the early stages of the synthesis of periodic m...
A detailed theoretical understanding of the synthesis mechanism of periodic mesoporous silica has no...
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 ...
The use of bioinspired templates, such as polyamines and polypeptides, could lead to significant imp...
A coarse-grained (CG) model is developed to reproduce the early stages of the templated synthesis of...
The use of bio-inspired methods for production of mesoporous silicas could lead to significant impro...
A detailed theoretical understanding of the synthesis mechanism of periodic mesoporous silica has no...
A novel coarse-grained (CG) model to study the self-assembly of silica/surfactant mesostructures dur...
Porous materials have long been a research interest due to their practical importance in traditional...
Molecular dynamics simulations of a coarse-grained model are used to study the formation mechanism o...
Porous materials have long been a research interest due to their practical importance in traditional...
Bio-inspired methods offer a great alternative to design high-value mesoporous silica under more env...
A novel coarse-grained (CG) model to study the self-assembly of silica/surfactant mesostructures dur...