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Solid-State Dewetting of Polycrystalline Thin Films: a Phase Field Approach

Published 14 Jul 2025 in cond-mat.mtrl-sci and physics.comp-ph | (2507.10811v1)

Abstract: Solid-state dewetting (SSD) is the process by which thin solid films break up and retract on a substrate, resulting in the formation of nanostructures and islands. While SSD in single-crystalline films is generally understood as a surface-energy-driven process mediated by surface diffusion, polycrystalline films feature additional complexity due to the presence of grain boundaries. Theoretical investigations and simulation frameworks have mainly focused on single-crystalline SSD. In this work, we present and apply a multi-phase-field framework that captures key mechanisms in polycrystalline thin films with multiple grains and grain boundaries in three dimensions. By considering isotropic surface and interface energy and curvature-driven grain boundary motion, we demonstrate how the framework reproduces the key phenomenology of SSD while being consistent with predictions based on energetic arguments. We also introduce refined analytical criteria for the onset of dewetting, confirmed by numerical simulations. Key evidence is given concerning the onset of dewetting at grain-boundary triple junctions. Moreover, we showcase SSD of polycrystalline patches. This work paves the way for in-depth investigations of the morphological evolution of polycrystalline thin films.

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