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Effects of Molecular Weight and Surface Interactions on Polymer Diffusion in Confinement

Brittany K. Roopnarine, Spencer C. Schmidt, Kevin J. Maxwell, Svetlana Morozova

2023ACS Macro Letters15 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide Understanding the transport and thermodynamics of polymers in confined spaces is helpful for many separation processes like water purification, drug delivery, and oil recovery. Specifically, for water purification, dextran has been used as a “model” foulant. Uncovering how these polymers interact in confinement can reduce the fouling of organic membranes and will lead to better separation processes overall. We have determined the diffusion coefficient, D, of dextran and sodium polyacrylate in convex lens-induced confinement using differential dynamic microscopy. In this setup, the gap height ranges continuously from 0.077–21.8 μm. It was found that polymer diffusion becomes slower in higher confinement, which is consistent with a change in the increase of the hydrodynamic resistance to macromolecule motion and depends on the surface properties. These findings indicate that dextran diffusion changes in confinement and can lead to a better understanding of separation processes.

Topics & Concepts

DiffusionPolymerDextranMaterials scienceMembraneChemical physicsChemical engineeringSodium polyacrylateMacromoleculeFoulingThermodynamicsChromatographyChemistryComposite materialOrganic chemistryPhysicsEngineeringRaw materialBiochemistryElectrostatics and Colloid InteractionsNanopore and Nanochannel Transport StudiesField-Flow Fractionation Techniques
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