Add to ORKGFluids confined in nanopores exhibit several unique structural and dynamical characteristics that affect a number of applications in industry as well as natural phenomena. Understanding and predicting the complex fluid behavior under nano-confinement is therefore of key importance, and both experimental and computational approaches have been employed toward this goal. It is now feasible to employ both simulations and theoretical methods, the results of which can be validated by cutting-edge experimental quantification. Nevertheless, predicting fluid transport through heterogeneous pore networks at a scale large enough to be relevant for practical applications remains elusive because one should account for a variety of fluid–rock interaction...
Nanopores have demonstrated an extraordinary ability to allow water molecules to pass through their ...
Nanomaterials have recently gained much interest in the field of petroleum engineering and environme...
A theory is discussed of single-component transport in nanopores, recently developed by Bhatia and c...
Fluid transport in narrow pores is central to the design and optimization of nanoporous materials in...
La récupération d'hydrocarbures non conventionnels fait partie des enjeux énergétiques majeurs. Ils ...
Unconventional hydrocarbons recovery is one of the major energy challenges. They cannot be extracted...
We present here a tractable theory of transport of simple fluids in cylindrical nanopores, which is ...
We examine the transport of methane in microporous carbon by performing equilibrium and nonequilibri...
Nanoporous solids are ubiquitous in chemical, energy, and environmental processes, where controlled ...
Molecular transport in nanopores plays a central role in many emerging nanotechnologies for gas sepa...
We develop a novel theory to predict the density dependence of the diffusivity of simple fluids in a...
<p>Due to intrinsic properties, solid-state nanopores are widely used in nanopore technology. Differ...
Ever increasing control over the shape and form of a material's nanoscale features provokes the purs...
We study the transport of a subcritical Lennard-Jones fluid in a cylindrical nanopore, using a combi...
The boundary-driven molecular modeling strategy to evaluate mass transport coefficients of fluids in...
Nanopores have demonstrated an extraordinary ability to allow water molecules to pass through their ...
Nanomaterials have recently gained much interest in the field of petroleum engineering and environme...
A theory is discussed of single-component transport in nanopores, recently developed by Bhatia and c...
Fluid transport in narrow pores is central to the design and optimization of nanoporous materials in...
La récupération d'hydrocarbures non conventionnels fait partie des enjeux énergétiques majeurs. Ils ...
Unconventional hydrocarbons recovery is one of the major energy challenges. They cannot be extracted...
We present here a tractable theory of transport of simple fluids in cylindrical nanopores, which is ...
We examine the transport of methane in microporous carbon by performing equilibrium and nonequilibri...
Nanoporous solids are ubiquitous in chemical, energy, and environmental processes, where controlled ...
Molecular transport in nanopores plays a central role in many emerging nanotechnologies for gas sepa...
We develop a novel theory to predict the density dependence of the diffusivity of simple fluids in a...
<p>Due to intrinsic properties, solid-state nanopores are widely used in nanopore technology. Differ...
Ever increasing control over the shape and form of a material's nanoscale features provokes the purs...
We study the transport of a subcritical Lennard-Jones fluid in a cylindrical nanopore, using a combi...
The boundary-driven molecular modeling strategy to evaluate mass transport coefficients of fluids in...
Nanopores have demonstrated an extraordinary ability to allow water molecules to pass through their ...
Nanomaterials have recently gained much interest in the field of petroleum engineering and environme...
A theory is discussed of single-component transport in nanopores, recently developed by Bhatia and c...