Add to ORKGThe use of the osmotic thermodynamic model, combined with a series of methane and carbon dioxide gas adsorption experiments at various temperatures, has allowed shedding some new light on the fascinating phase behavior of flexible MIL-53(Al) metal-organic frameworks. A generic temperature-loading phase diagram has been derived; it is shown that the breathing effect in MIL-53 is a very general phenomenon, which should be observed in a limited temperature range regardless of the guest molecule. In addition, the previously proposed stress model for the structural transitions of MIL-53 is shown to be transferable from xenon to methane adsorption. The stress model also provides a theoretical framework for understanding the existence of lp/np pha...
The high pressure methane sorption tests on a flexible metal-organic framework [MIL-53(Al)-NH2] reve...
The breathing of the flexible metal organic framework MIL-53(Cr) has been widely explored by both e...
Structural transformation of MIL-53(Al) metal organic framework from large pore to narrow pore form...
International audienceThe use of the osmotic thermodynamic model, combined with a series of methane ...
When adsorbing guest molecules, the porous metal-organic framework MIL-53(Cr) may vary its cell para...
International audienceMOFs come alive: The combination of gas‐adsorption experiments at various temp...
<div><p>A new semi-analytical mean-field model is proposed to rationalise breathing of MIL-53 type m...
The breathing of the flexible metal organic framework MIL-53(Cr) has been widely explored by both ex...
ABSTRACT Gas adsorption in pores of flexiblemetal-organic frameworks (MOF) induces elastic deformati...
ABSTRACT: When adsorbing guest molecules, the porous metal−organic framework MIL-53(Cr) may vary its...
In this paper, we rationalize the thermodynamics behind the guest-induced structural transitions of ...
International audienceWe briefly review the concept of temperature-loading phase diagram that we der...
In this work, we report adsorption isotherms of various industrially important gases, viz. CO<sub>2<...
This work presents the synthesis of MIL-53(Al) metal–organic frameworks with different terephthalate...
International audienceCarbon dioxide gas adsorption in amino-functionalized MIL-53(Al) at various te...
The high pressure methane sorption tests on a flexible metal-organic framework [MIL-53(Al)-NH2] reve...
The breathing of the flexible metal organic framework MIL-53(Cr) has been widely explored by both e...
Structural transformation of MIL-53(Al) metal organic framework from large pore to narrow pore form...
International audienceThe use of the osmotic thermodynamic model, combined with a series of methane ...
When adsorbing guest molecules, the porous metal-organic framework MIL-53(Cr) may vary its cell para...
International audienceMOFs come alive: The combination of gas‐adsorption experiments at various temp...
<div><p>A new semi-analytical mean-field model is proposed to rationalise breathing of MIL-53 type m...
The breathing of the flexible metal organic framework MIL-53(Cr) has been widely explored by both ex...
ABSTRACT Gas adsorption in pores of flexiblemetal-organic frameworks (MOF) induces elastic deformati...
ABSTRACT: When adsorbing guest molecules, the porous metal−organic framework MIL-53(Cr) may vary its...
In this paper, we rationalize the thermodynamics behind the guest-induced structural transitions of ...
International audienceWe briefly review the concept of temperature-loading phase diagram that we der...
In this work, we report adsorption isotherms of various industrially important gases, viz. CO<sub>2<...
This work presents the synthesis of MIL-53(Al) metal–organic frameworks with different terephthalate...
International audienceCarbon dioxide gas adsorption in amino-functionalized MIL-53(Al) at various te...
The high pressure methane sorption tests on a flexible metal-organic framework [MIL-53(Al)-NH2] reve...
The breathing of the flexible metal organic framework MIL-53(Cr) has been widely explored by both e...
Structural transformation of MIL-53(Al) metal organic framework from large pore to narrow pore form...