English

Polydisperse polymer brushes: internal structure, critical behavior, and interaction with flow

Soft Condensed Matter 2017-02-08 v1

Abstract

We study the effect of polydispersity on the structure of polymer brushes by analytical theory, a numerical self-consistent field approach, and Monte Carlo simulations. The polydispersity is represented by the Schulz-Zimm chain-length distribution. We specifically focus on three different polydispersities representing sharp, moderate and extremely wide chain length distributions and derive explicit analytical expressions for the chain end distributions in these brushes. The results are in very good agreement with numerical data obtained with self-consistent field calculations and Monte Carlo simulations. With increasing polydispersity, the brush density profile changes from convex to concave, and for given average chain length NnN_n and grafting density σ\sigma, the brush height HH is found to scale as (H/Hmono1)(Nw/Nn1)1/2(H/H_{\mathrm{mono}}-1)\propto(N_w/N_n-1)^{1/2} over a wide range of polydispersity indices Nw/NnN_w/N_n (here HmonoH_{\mathrm{mono}} is the height of the corresponding monodisperse brush. Chain end fluctuations are found to be strongly suppressed already at very small polydispersity. Based on this observation, we introduce the concept of the brush as a near-critical system with two parameters (scaling variables), (Nnσ2/3)1(N_{n}\sigma^{2/3})^{-1} and (Nw/Nn1)1/2(N_w/N_n-1)^{1/2}, controlling the distance from the critical point. This approach provides a good description of the simulation data. Finally we study the hydrodynamic penetration length lpl_\mathrm{p} for brush-coated surfaces in flow. We find that it generally increases with polydispersity. The scaling behavior crosses over from lpNn1/2σ1/6l_\mathrm{p}\sim N_\mathrm{n}^{1/2}\sigma^{-1/6} for monodisperse and weakly polydisperse brushes to lpNn2/3l_\mathrm{p}\sim N_{n}^{2/3} for strongly polydisperse brushes.

Keywords

Cite

@article{arxiv.1612.01122,
  title  = {Polydisperse polymer brushes: internal structure, critical behavior, and interaction with flow},
  author = {Shuanhu Qi and Leonid I. Klushin and Alexander M. Skvortsov and Friederike Schmid},
  journal= {arXiv preprint arXiv:1612.01122},
  year   = {2017}
}

Comments

21pages, 9 figures. Accepted for publication in Macromolecues

R2 v1 2026-06-22T17:12:53.954Z