Homogenization of Continuum-Scale Transport Properties from Molecular Dynamics Simulations: An Application to Aqueous-Phase Methane Diffusion in Silicate Channels

Abstract: Silica-based materials including zeolites are commonly used for wide-ranging applications including separations and catalysis. Substrate transport rates in these materials can significantly influence the efficiency of such applications. Two factors that contribute to transport rates include (1) the porosity of the silicate matrix and (2) nonbonding interactions between the diffusing species and the silicate surface. These contributions generally emerge from disparate length scales, namely, “microscopic” (rough… Show more

“…A derivation using harmonic forces to constrain the system along the PMF is provided in the appendix of Pace et al . (2021).…”

“…The Einstein relation then yields the diffusion coefficient from . A derivation using harmonic forces to constrain the system along the PMF is provided in the appendix of Pace et al (2021) .…”

Myofilament-associated proteins with intrinsic disorder (MAPIDs) and their resolution by computational modeling

“…A derivation using harmonic forces to constrain the system along the PMF is provided in the appendix of Pace et al . (2021).…”

“…The Einstein relation then yields the diffusion coefficient from . A derivation using harmonic forces to constrain the system along the PMF is provided in the appendix of Pace et al (2021) .…”

Myofilament-associated proteins with intrinsic disorder (MAPIDs) and their resolution by computational modeling

Polynomial chaos expansion for uncertainty propagation analysis in numerical homogenization of 2D/3D periodic composite microstructures

Sensitivity Analysis of Gas-Surface Modeling in Nonequilibrium Flows