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Citation - WoS: 50
Citation - Scopus: 53
Nanoscale Oxide Growth on Al Single Crystals at Low Temperatures: Variable Charge Molecular Dynamics Simulations
(American Physical Society, 2006) Hasnaoui, A.; Politano, O.; Salazar, J. M.; Aral, Gürcan
We investigate the oxidation of aluminum low-index surfaces [(100), (110), and (111)] at low temperatures (300-600 K) and three different gas pressure values. We use molecular dynamics (MD) simulations with dynamic charge transfer between atoms where the interaction between atoms is described by the Es+ potential composed of the embedded atom method (EAM) potential and an electrostatic contribution. In the considered temperature range and under different gas pressure conditions, the growth kinetics follow a direct logarithmic law where the oxide thickness is limited to a value of ∼3 nm. The fitted curves allow us to determine the temperature and the pressure dependencies of the parameters involved in the growth law. During the adsorption stage, we observe a rotation of the oxygen pair as a precursor process to its dissociation. In most cases, the rotation aligns the molecule vertically to the Al surface. The separation distance after dissociation ranges from 3 to 9. Atomistic observations revealed that the oxide presents a dominant tetrahedral (Al O4) environment in the inner layer and mixed tetrahedral and octahedral (Al O6) environments in the outer oxide region when the oxide thickness reaches values beyond ∼2 nm.

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