Add to ORKGStimulated by the recent report by Yaghi and co-workers of hexagonal metal−organic frameworks (MOF) exhibiting reversible binding of up to 7.5 wt % at 77 K and 70 bar for MOF-177 (called here IRMOF-2-24), we have predicted additional trigonal organic linkers, including IRMOF-2-60, which we calculate to bind 9.7 wt % H2 storage at 77 K and 70 bar, the highest known value for 77 K. These calculations are based on grand canonical Monte Carlo (GCMC) simulations using force fields that match accurate quantum mechanical calculations on the binding of H2 to prototypical systems. These calculations were validated by comparison to the experimental loading curve for IRMOF-2-24 at 77K. We then used the theory to predict the effect of doping Li into th...
Metal-organic frameworks are a diverse group of crystalline materials consisting of metal ionscoordi...
Using first principles calculations, we show that the storage capacity as well as desorption tempera...
The recently discovered UiO-66/67/68 class of isostructural metallorganic frameworks (MOFs) [J. H. C...
Stimulated by the recent report by Yaghi and co-workers of hexagonal metal−organic frameworks (MOF) ...
To maximize reversible H_2 storage near room temperature and modest pressures, we propose Li doping ...
To maximize reversible H_2 storage near room temperature and modest pressures, we propose Li doping ...
Physisorption in porous materials is a promising approach for meeting H_2 storage requirements for t...
Physisorption in porous materials is a promising approach for meeting H_2 storage requirements for t...
Physisorption in porous materials is a promising route to meet mol. hydrogen (H_2) storage and deliv...
The Yaghi laboratory has developed porous covalent organic frameworks (COFs), COF102, COF103, and CO...
Inconsistencies in high-pressure H2 adsorption data and a lack of comparative experiment–theory stud...
Inconsistencies in high-pressure H2 adsorption data and a lack of comparative experiment–theory stud...
Inconsistencies in high-pressure H2 adsorption data and a lack of comparative experiment–theory stud...
Using first principles calculations, we show that the storage capacity as well as desorption tempera...
Metal-organic frameworks are a diverse group of crystalline materials consisting of metal ionscoordi...
Metal-organic frameworks are a diverse group of crystalline materials consisting of metal ionscoordi...
Using first principles calculations, we show that the storage capacity as well as desorption tempera...
The recently discovered UiO-66/67/68 class of isostructural metallorganic frameworks (MOFs) [J. H. C...
Stimulated by the recent report by Yaghi and co-workers of hexagonal metal−organic frameworks (MOF) ...
To maximize reversible H_2 storage near room temperature and modest pressures, we propose Li doping ...
To maximize reversible H_2 storage near room temperature and modest pressures, we propose Li doping ...
Physisorption in porous materials is a promising approach for meeting H_2 storage requirements for t...
Physisorption in porous materials is a promising approach for meeting H_2 storage requirements for t...
Physisorption in porous materials is a promising route to meet mol. hydrogen (H_2) storage and deliv...
The Yaghi laboratory has developed porous covalent organic frameworks (COFs), COF102, COF103, and CO...
Inconsistencies in high-pressure H2 adsorption data and a lack of comparative experiment–theory stud...
Inconsistencies in high-pressure H2 adsorption data and a lack of comparative experiment–theory stud...
Inconsistencies in high-pressure H2 adsorption data and a lack of comparative experiment–theory stud...
Using first principles calculations, we show that the storage capacity as well as desorption tempera...
Metal-organic frameworks are a diverse group of crystalline materials consisting of metal ionscoordi...
Metal-organic frameworks are a diverse group of crystalline materials consisting of metal ionscoordi...
Using first principles calculations, we show that the storage capacity as well as desorption tempera...
The recently discovered UiO-66/67/68 class of isostructural metallorganic frameworks (MOFs) [J. H. C...