Crowding competes with trapping to enhance interfacial diffusion
Soft Condensed Matter
2021-06-25 v1 Statistical Mechanics
Biological Physics
Chemical Physics
Abstract
Diffusion in the crowded environments of the biological membranes or materials interfaces often involves intermittent binding to surface proteins or defects. To account for this situation we study a 2-dimensional lattice gas in a field of immobilized traps. Using kinetic Monte Carlo simulations, we calculate the effective diffusion coefficient in the long-time limit as a function of the traps and particle densities. We find a remarkable result - an increase of the diffusion coefficient with particle density, an effect that we coin as crowding-enhanced diffusion. We rationalize this result using scaling arguments and the master equation approach.
Cite
@article{arxiv.2106.12965,
title = {Crowding competes with trapping to enhance interfacial diffusion},
author = {Mislav Cvitković and Dipanwita Ghanti and Niklas Raake and Ana-Sunčana Smith},
journal= {arXiv preprint arXiv:2106.12965},
year = {2021}
}
Comments
5 pages, 4 figures