Issue 7, 2022, Issue in Progress

Non-monotonic variation of flow strength in nanochannels grafted with end-charged polyelectrolyte layers

Abstract

The electrokinetic transport of fluids, also called the electroosmotic flow (EOF), in micro/nanoscale devices occurs in promising applications such as electrokinetic energy conversion (EKEC) systems. Recently, EKEC systems grafted with end-charged polyelectrolyte (PE) layers (PELs) have been reported to exhibit higher efficiencies than those of intrinsic systems. Understanding the interplay between the end-charged PELs and electrical double layers (EDLs) on the EOF is crucial for designing highly efficient EKEC systems. The interplay between the end-charged PELs and EDLs on the strength of the EOF (V0) is studied by explicitly modeling the EOF through nanochannels grafted with end-charged PELs using atomic simulations. The variation of V0 is examined for nanochannels grafted with PELs at various separations (d = 3.5–0.4 nm) to cover various conformations of PEs, inlcuding mushroom, semi-dilute brushes, and concentrated brushes. We find that V0 follows a non-monotonic variation as d decreases and this is correlated with the conformation of the PEs. Specifically, as d decreases, V0 decreases first in the mushroom regime (d = 3.5–2.0 nm), and then V0 increases in the concentrated brush regime (d = 0.75–0.4 nm). Navigated by the continuum Navier–Stokes–Brinkman model, the above observations are rationalized by the competition between the driving effect from the spatial shift of ions in EDLs and the drag effect from PELs. The insights obtained in this work are important to guide the design of highly efficient EKEC systems by grafting end-charged PELs onto channel surfaces.

Graphical abstract: Non-monotonic variation of flow strength in nanochannels grafted with end-charged polyelectrolyte layers

Supplementary files

Article information

Article type
Paper
Submitted
02 Sep 2021
Accepted
25 Oct 2021
First published
02 Feb 2022
This article is Open Access
Creative Commons BY license

RSC Adv., 2022,12, 4061-4071

Non-monotonic variation of flow strength in nanochannels grafted with end-charged polyelectrolyte layers

P. Wu, T. Sun and X. Jiang, RSC Adv., 2022, 12, 4061 DOI: 10.1039/D1RA06601C

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