We apply the recently developed triangular tessellation technique as presented by J. de Graaf et al. [Phys. Rev. E80, 051405 (2009)] to calculate the free energy associated with the adsorption of anisotropic colloidal particles at a flat interface. From the free-energy landscape, we analyze the adsorption process, using a simplified version of Langevin dynamics. The present result is a first step towards understanding the time-dependent behavior of colloids near interfaces. This study shows a wide range of adsorption trajectories, where the emphasis lies on a strong dependence of the dynamics on the orientation of the colloid at initial contact with the interface. We believe that the observed orientational dependence in our simple model can be recovered in suitable experimental systems.

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See supplementary material at http://dx.doi.org/10.1063/1.3389481 for colloid motion through the interface.

Supplementary Material

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