Monte Carlo Test of the Classical Theory for Heterogeneous Nucleation Barriers

Abstract

Flat walls facilitate the condensation of a supersaturated vapor: Classical theory of heterogeneous nucleation predicts that the free energy barrier F het* which needs to be overcome for the formation of sphere-cap shaped nucleation seeds is smaller than the barrier F* hom for spherical droplets in the bulk by a factor 0<f(θ)<1, which only depends on the contact angle θ. In this letter we compute both F* hom and F* het from Monte Carlo simulations and test the theory for the lattice gas model (for which θ can be readily controlled). Even though the theory is only based on macroscopic arguments, it is shown to hold for experimentally relevant nanoscopic nucleation seeds (20≤ F* hom/kBT≤ 200) if (independently estimated) line tension effects are considered.