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Entanglements via Slip-Springs with Soft, Coarse-Grained Models for Systems Having Explicit Liquid-Vapor Interfaces

Published 9 Nov 2022 in cond-mat.soft and physics.chem-ph | (2211.05161v1)

Abstract: Recent advances in nano-rheology require that new methods and models be developed to describe the equilibrium and non-equilibrium properties of entangled polymeric materials and their interfaces at a molecular level of detail. In this work we present a Slip-Spring (SLSP) model capable of describing the dynamics of entangled polymers at interfaces, including explicit liquid-vapor and liquid-solid interfaces. The highly coarse-grained approach adopted with this model enables simulation of entire nano-rheological characterization systems within a particle-level base description. Many-body dissipative particle dynamics (MDPD) non-bonded interactions allow for explicit liquid-vapor interfaces, and compensating potential within the SLSP model ensures unbiased descriptions of the shape of the liquid-vapor interface. The usefulness of the model has been illustrated by studying the deposition of polymer droplets onto a substrate, where it s shown that the wetting dynamics is strongly dependent on the degree of entanglement of the polymer. More generally, the model proposed here provides a foundation for the development of digital twins of experimentally relevant systems, including a new generation of nano-rheometers based on nano- or micro-droplet deformation.

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