4.7 Article

Interaction between surfaces decorated with like-charged pendants: Unravelling the interplay between energy and entropy leading to attraction

Journal

JOURNAL OF COLLOID AND INTERFACE SCIENCE
Volume 619, Issue -, Pages 51-64

Publisher

ACADEMIC PRESS INC ELSEVIER SCIENCE
DOI: 10.1016/j.jcis.2022.03.065

Keywords

Like-charged surfaces; Electrolytes; Potential of mean force; Monte Carlo simulations; Free energy calculations

Funding

  1. Universita degli Studi dell'Insubria

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Through the study of model systems, it is found that surfaces with low charge densities and surface-tethered like-charged pendants can still attract each other. In addition to electrostatic interactions, the entropic component of the system plays a key role in defining the overall magnitude of the forces.
Hypothesis: The stronger motional coupling between monovalent counterions neutralizing homogeneously like-charged surfaces induced by an increase in charge density is known to foster inter-surface attraction. Compared to a uniformly distributed charge, point-like charges generate locally more intense fields, so that the correlation induced between counterions may be even stronger despite an identical total charge. It should thus be possible to induce surface attraction at lower charge densities than commonly expected. Experiments: Monte Carlo simulations on primitive electrolyte models have been exploited to compute potential of mean force profiles and mobile ion densities for systems composed of two parallel surfaces bearing surface-tethered monovalent like-charged pendants as a function of the surface distance and pendant densities. Findings: Surfaces bearing like-charged pendants are found to attract each other over a wide range of distances despite the presence of very low charge densities. Notwithstanding the attractive contribution to the inter-surface forces provided by electrostatic interactions, the entropic component of the system Helmholtz energy is found to play the key role in defining the overall magnitude. The latter finding appears justified by an increase in the relative delocalization of counterions upon decreasing the surface distance.

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