Litcius/Paper detail

Dynamic transformation of bio-inspired single-chain nanoparticles at interfaces

Shayna L. Hilburg, Tianyi Jin, Alfredo Alexander‐Katz

2023The Journal of Chemical Physics10 citationsDOIOpen Access PDF

Abstract

The interfacial behavior of macromolecules dictates their intermolecular interactions, which can impact the processing and application of polymers for pharmaceutical and synthetic use. Using molecular dynamics simulations, we observe the evolution of a random heteropolymer in the presence of liquid-liquid interfaces. The system of interest forms single-chain nanoparticles through hydrophobic collapse in water, lacking permanent crosslinks and making their morphology mutable in new environments. Complex amphiphilic polymers are shown to be capable of stabilizing high interfacial tension water-hexane interfaces, often unfolding to maximize surface coverage. Despite drastic changes to polymer conformation, monomer presence in the water phase is generally maintained and most changes are due to increased hydrophobic solvent exposure toward the oil phase. These results are then compared to the behavior at the water-graphene interface, where the macromolecules adsorb but do not remodel. The polymer's behavior is shown to depend significantly on both its own amphiphilic character and the deformability of the interface.

Topics & Concepts

Transformation (genetics)NanoparticleChain (unit)Materials scienceNanotechnologySingle chainBiological systemChemical engineeringComputer scienceChemistryEngineeringPhysicsBiologyAstronomyAntibodyGeneImmunologyBiochemistryForce Microscopy Techniques and ApplicationsCarbon Nanotubes in CompositesSupramolecular Self-Assembly in Materials