2022
DOI: 10.1016/j.ceramint.2022.02.210
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Molecular dynamics study of interfacial load transfer capability in amorphous SiOx films deposited on alumina surfaces

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Cited by 6 publications
(2 citation statements)
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“…This agrees with the phenomenon of metallic bond break in the Cu/amorphous-SiO 2 interface 50 and other metal/ oxide interfaces under tensile loading. 64,65 The interface interacting with O 2 makes the interfacial structure disordered (Figure 2) and breaks the Cu−O−Si bonding (Figure 3a), which is different from the observations in the Cu/amorphous-SiO 2 interface. 50 Such reduction reduces the interfacial strength, but the formation of a denser oxide layer at the interface with increasing ρ Od 2 can lift the interfacial strength again (Figure 4a).…”
Section: Interface Modification Strategymentioning
confidence: 76%
“…This agrees with the phenomenon of metallic bond break in the Cu/amorphous-SiO 2 interface 50 and other metal/ oxide interfaces under tensile loading. 64,65 The interface interacting with O 2 makes the interfacial structure disordered (Figure 2) and breaks the Cu−O−Si bonding (Figure 3a), which is different from the observations in the Cu/amorphous-SiO 2 interface. 50 Such reduction reduces the interfacial strength, but the formation of a denser oxide layer at the interface with increasing ρ Od 2 can lift the interfacial strength again (Figure 4a).…”
Section: Interface Modification Strategymentioning
confidence: 76%
“…In this study, MD simulations were employed to examine the ion-surface interaction characteristics in detail. In previous studies, reactive MD simulations with various reactive force fields have been used to describe the interactions of plasma species with a target surface under processing conditions [28][29][30][31]. ReaxFF, which was developed by van Duin et al [32,33], is a typical example of a reactive force field that was successfully implemented to understand plasma-material interactions.…”
Section: Data Preparation With MD Simulationsmentioning
confidence: 99%