Cross-linker effect on solute adsorption in swollen thermoresponsive polymer networks
Sebastian Milster, Richard Chudoba, Matej Kandu\v{c}, Joachim, Dzubiella

TL;DR
This study uses molecular dynamics simulations to explore how cross-linkers influence solute adsorption in swollen thermoresponsive polymer networks, revealing that cross-link regions can significantly enhance solute adsorption and affect partitioning behavior.
Contribution
It provides detailed molecular insights into the role of cross-linkers in solute adsorption, a novel investigation linking microscopic interactions to macroscopic partitioning in hydrogels.
Findings
Cross-link regions can amplify solute adsorption by an order of magnitude.
Adsorption behavior varies with solute size and polarity.
Cross-link density influences solute partition ratios.
Abstract
The selective solute partitioning within a polymeric network is of key importance to applications in which controlled release or uptake of solutes in a responsive hydrogel is required. In this work we investigate the impact of cross-links on solute adsorption in a swollen polymer network by means of all-atom, explicit-water molecular dynamics simulations. We focus on a representative network subunit consisting of poly(-isopropylacrylamide) (PNIPAM) and ,-methylenebisacrylamide (BIS/MBA) cross-linker types. Our studied system consists of one BIS-linker with four atactic PNIPAM chains attached in a tetrahedral geometry. The adsorption of several representative solutes of different polarity in the low concentration limit at the linker region is examined. We subdivide the solute adsorption regions and distinguish between contributions stemming from polymer chains and cross-link…
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