Add to ORKGABSTRACT: Flexible metal−organic frameworks, also known as soft porous crystals, have been proposed for a vast number of technological applications, because they respond by large changes in structure and properties to small external stimuli, such as adsorption of guest molecules and changes in temperature or pressure. While this behavior is highly desirable in applications such as sensing and actuation, their extreme flexibility can also be synonymous with decreased stability. In particular, their performance in industrial environments is limited by a lack of stability at elevated temperatures and in the presence of water. Here, we use first-principles molecular dynamics to study the hydrothermal breakdown of soft porous crystals. Focusing ...
The breathing of the flexible metal organic framework MIL-53(Cr) has been widely explored by both ex...
Advances in flexible and functional metal–organic frameworks (MOFs), also called soft porous crystal...
A comprehensive model to describe the water stability of prototypical metal–organic frameworks (MOFs...
Flexible metal–organic frameworks, also known as soft porous crystals, have been proposed for a vast...
International audienceFlexible metal–organic frameworks, also known as soft porous crystals, have be...
International audienceThe hydration behavior of metal–organic frameworks (MOFs) is of interest both ...
*S Supporting Information ABSTRACT: Understanding the adsorption of water in metal−organic framework...
International audienceMuch attention has recently been focused on a fascinating subclass of metal‐or...
International audienceReversible structural transition between the Large (LP) and Narrow Pore (NP) f...
Reversible structural transition between the Large (LP) and Narrow Pore (NP) forms (breathing phenom...
International audienceSoft porous crystals present a challenge to molecular dynamics simulations wit...
To exploit the full potential of metal-organic frameworks as solid adsorbents in water-adsorption ap...
The topic of this thesis is the thermodynamical, mechanical and adsorptive behavior of Soft Porous C...
The topic of this thesis is the thermodynamical, mechanical and adsorptive behavior of Soft Porous C...
Soft porous crystals have the ability to undergo large structural transformations upon exposure to e...
The breathing of the flexible metal organic framework MIL-53(Cr) has been widely explored by both ex...
Advances in flexible and functional metal–organic frameworks (MOFs), also called soft porous crystal...
A comprehensive model to describe the water stability of prototypical metal–organic frameworks (MOFs...
Flexible metal–organic frameworks, also known as soft porous crystals, have been proposed for a vast...
International audienceFlexible metal–organic frameworks, also known as soft porous crystals, have be...
International audienceThe hydration behavior of metal–organic frameworks (MOFs) is of interest both ...
*S Supporting Information ABSTRACT: Understanding the adsorption of water in metal−organic framework...
International audienceMuch attention has recently been focused on a fascinating subclass of metal‐or...
International audienceReversible structural transition between the Large (LP) and Narrow Pore (NP) f...
Reversible structural transition between the Large (LP) and Narrow Pore (NP) forms (breathing phenom...
International audienceSoft porous crystals present a challenge to molecular dynamics simulations wit...
To exploit the full potential of metal-organic frameworks as solid adsorbents in water-adsorption ap...
The topic of this thesis is the thermodynamical, mechanical and adsorptive behavior of Soft Porous C...
The topic of this thesis is the thermodynamical, mechanical and adsorptive behavior of Soft Porous C...
Soft porous crystals have the ability to undergo large structural transformations upon exposure to e...
The breathing of the flexible metal organic framework MIL-53(Cr) has been widely explored by both ex...
Advances in flexible and functional metal–organic frameworks (MOFs), also called soft porous crystal...
A comprehensive model to describe the water stability of prototypical metal–organic frameworks (MOFs...