Add to ORKGABSTRACT: The physical limits for methane storage and delivery in nanoporous materials were investigated, with a focus on whether it is possible to reach a methane deliverable capacity of 315 cm3(STP)/cm3 in line with the adsorption target established by the ARPA-E agency. Our efforts focused on how both geometric and chemical properties, such as void fraction (Vf), volumetric surface area (Sv), and heat of adsorption (Qst), impact methane deliverable capacity, i.e., the amount of methane adsorbed at some storage pressure minus the amount adsorbed at the delivery pressure. With the aid of grand canonical Monte Carlo (GCMC) simulations, we studied methane adsorption and delivery properties in a population of 122 835 hypothetical pcu metal−or...
International audienceThe efficient storage and transportation of natural gas is one of the most imp...
We survey various molecular structures which have been proposed as possible nanocontainers for metha...
Emerging classes of porous crystalline materials such as metal organic frameworks and covalent-organ...
The physical limits for methane storage and delivery in nanoporous materials were investigated, with...
Experimental results for methane adsorption on two high-surface area carbons (TE7-20 and AX-21) and ...
Experimental results for methane adsorption on two high-surface area carbons (TE7-20 and AX-21) and ...
Designing new nanoporous materials with high methane delivery capacity (DC) is crucial to achieve US...
Highly porous materials have the potential to greatly increase storage efficiency of gaseous materia...
Although the properties of nanoporous framework materials (NFMs) for high-pressure gas storage are w...
The geometrical and topological features of metal-organic frameworks (MOFs) play an important role i...
Metal–organic frameworks (MOFs) are a novel family of physisorptive materials that have exhibited gr...
International audienceThe efficient storage and transportation of natural gas is one of the most imp...
International audienceThe efficient storage and transportation of natural gas is one of the most imp...
Methane adsorption was studied in microporous materials with differences in their pore geometry and ...
ABSTRACT: Adsorption is an important issue both in the estimation of natural gas reserves and effici...
International audienceThe efficient storage and transportation of natural gas is one of the most imp...
We survey various molecular structures which have been proposed as possible nanocontainers for metha...
Emerging classes of porous crystalline materials such as metal organic frameworks and covalent-organ...
The physical limits for methane storage and delivery in nanoporous materials were investigated, with...
Experimental results for methane adsorption on two high-surface area carbons (TE7-20 and AX-21) and ...
Experimental results for methane adsorption on two high-surface area carbons (TE7-20 and AX-21) and ...
Designing new nanoporous materials with high methane delivery capacity (DC) is crucial to achieve US...
Highly porous materials have the potential to greatly increase storage efficiency of gaseous materia...
Although the properties of nanoporous framework materials (NFMs) for high-pressure gas storage are w...
The geometrical and topological features of metal-organic frameworks (MOFs) play an important role i...
Metal–organic frameworks (MOFs) are a novel family of physisorptive materials that have exhibited gr...
International audienceThe efficient storage and transportation of natural gas is one of the most imp...
International audienceThe efficient storage and transportation of natural gas is one of the most imp...
Methane adsorption was studied in microporous materials with differences in their pore geometry and ...
ABSTRACT: Adsorption is an important issue both in the estimation of natural gas reserves and effici...
International audienceThe efficient storage and transportation of natural gas is one of the most imp...
We survey various molecular structures which have been proposed as possible nanocontainers for metha...
Emerging classes of porous crystalline materials such as metal organic frameworks and covalent-organ...