Multiscale modeling of solute diffusion in triblock copolymer membranes

Abstract: We develop a multiscale simulation model for diffusion of solutes through porous triblock copolymer membranes. The approach combines two techniques: self-consistent field theory (SCFT) to predict the structure of the self-assembled, solvated membrane and on-lattice kinetic Monte Carlo (kMC) simulations to model diffusion of solutes. Solvation is simulated in SCFT by constraining the glassy membrane matrix while relaxing the brush-like membrane pore coating against the solvent. The kMC simulations capture the r… Show more

“…Recent multiscale modeling work by Cooper et al (2023) illustrates the necessity of resolving details across various length scales. The authors first use self-consistent field theory to generate triblock copolymer membrane structures, then parametrize a kinetic Monte Carlo model for estimating water diffusivities based on DPD simulations in select, simple geometries.…”

Grand challenges in membrane transport, modeling and simulation

“…Recent multiscale modeling work by Cooper et al (2023) illustrates the necessity of resolving details across various length scales. The authors first use self-consistent field theory to generate triblock copolymer membrane structures, then parametrize a kinetic Monte Carlo model for estimating water diffusivities based on DPD simulations in select, simple geometries.…”

Grand challenges in membrane transport, modeling and simulation