Interaction between Nearly Hard Colloidal Spheres at an Oil-Water Interface
Iain Muntz, Franceska Waggett, Michael Hunter, Andrew B. Schofield,, Paul Bartlett, Davide Marenduzzo, Job H. J. Thijssen

TL;DR
This study investigates the interaction potential of nearly hard colloidal spheres at an oil-water interface, revealing that the interactions are mainly due to screened monopole effects and can be tuned by salt concentration, with additional contributions for charged particles.
Contribution
The paper demonstrates that sterically stabilized colloids at interfaces are better described by screened monopole interactions, challenging previous models that included unscreened dipole contributions.
Findings
Interaction potential is mainly due to screened monopole effects.
Salt concentration influences the interaction strength.
Additional interactions observed for charged colloids like PMMA-PHSA.
Abstract
We show that the interaction potential between sterically stabilized, nearly hard-sphere [poly(methylmethacrylate)-poly(lauryl methacrylate) (PMMA-PLMA)] colloids at a water-oil interface has a negligible unscreened-dipole contribution, suggesting that models previously developed for charged particles at liquid interfaces are not necessarily applicable to sterically stabilized particles. Interparticle potentials, , are extracted from radial distribution functions [, measured by fluorescence microscopy] via Ornstein-Zernike inversion and via a reverse Monte Carlo scheme. The results are then validated by particle tracking in a blinking optical trap. Using a Bayesian model comparison, we find that our PMMA-PLMA data is better described by a screened monopole only rather than a functional form having a screened monopole plus an unscreened dipole term. We postulate that the long…
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