English

Modeling Solution Drying by Moving a Liquid-Vapor Interface: Method and Applications

Soft Condensed Matter 2022-09-27 v1

Abstract

A method of simulating the drying process of a soft matter solution with an implicit solvent model by moving the liquid-vapor interface is applied to various solution films and droplets. For a solution of a polymer and nanoparticles, we observe "polymer-on-top" stratification, similar to that found previously with an explicit solvent model. Furthermore, "polymer-on-top" is found even when the nanoparticle size is smaller than the radius of gyration of the polymer chains. For a suspension droplet of a bidisperse mixture of nanoparticles, we show that core-shell clusters of nanoparticles can be obtained via the "small-on-outside" stratification mechanism at fast evaporation rates. "Large-on-outside" stratification and uniform particle distribution are also observed when the evaporation rate is reduced. Polymeric particles with various morphologies, including Janus spheres, core-shell particles, and patchy particles, are produced from drying droplets of polymer solutions by combining fast evaporation with a controlled interaction between the polymers and the liquid-vapor interface. Our results validate the applicability of the moving interface method to a wide range of drying systems. The limitations of the method are pointed out and cautions are provided to potential practitioners on cases where the method might fail.

Keywords

Cite

@article{arxiv.2209.11829,
  title  = {Modeling Solution Drying by Moving a Liquid-Vapor Interface: Method and Applications},
  author = {Yanfei Tang and John E. McLaughlan and Gary S. Grest and Shengfeng Cheng},
  journal= {arXiv preprint arXiv:2209.11829},
  year   = {2022}
}

Comments

14 pages, 7 figures

R2 v1 2026-06-28T01:59:47.463Z