Abstract
Percolation charge transport on an electrified surface under the adsorption of an electrically conductive phase is considered for the first time. The influence of adsorption and nucleation kinetics on the formation of percolation clusters, which allow the excess charge to flow off and to be subsequently neutralized, is studied. It is revealed that the percolation transitions are crucial in the stability of the electrostatic charge accumulated on a dielectric surface. It is found that the increase in both the spontaneous nucleation rate and the initial surface fraction covered by an electrically conductive phase leads to a drop in the percolation transition time.
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