A kinetic model integrating bulk, surface, and defect nucleation pathways, with rates from MD simulations, predicts that nanoscopic hydrophobic defects dominate cavitation and that bulk nucleation requires defect-free hydrophilic surfaces at around -100 MPa.
Reuter , author C
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Water cavitation results from the kinetic competition of bulk, surface and surface-defect nucleation events
A kinetic model integrating bulk, surface, and defect nucleation pathways, with rates from MD simulations, predicts that nanoscopic hydrophobic defects dominate cavitation and that bulk nucleation requires defect-free hydrophilic surfaces at around -100 MPa.