2017
DOI: 10.1103/physrevb.96.104306
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Nonequilibrium ab initio molecular dynamics determination of Ti monovacancy migration rates in B1 TiN

Abstract: We use the color diffusion (CD) algorithm in nonequilibrium (accelerated) ab initio molecular dynamics simulations to determine Ti monovacancy jump frequencies in NaCl-structure titanium nitride (TiN), at temperatures ranging from 2200 to 3000 K. Our results show that the CD method extended beyond the linear-fitting rate-versus-force regime [Sangiovanni et al., Phys. Rev. B 93, 094305 (2016)] can efficiently determine metal vacancy migration rates in TiN, despite the low mobilities of lattice defects in this t… Show more

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Cited by 15 publications
(18 citation statements)
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“…We found that the migration energies for Ti V and N V in B1-TiN along <110> directions are 4.13 and 4.24 eV, respectively, with saddle-point transition states located halfway between initial and final atomic positions (Figure 7a). The MEAM predictions are in good agreement with DFT-NEB results, which yield energy barriers of ≈3.8 eV for N V [114] and 4.26 eV for Ti V [97]. Experimental values for vacancy migration energies in B1-TiN are scarce in the literature.…”
Section: Potential Validation Resultssupporting
confidence: 70%
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“…We found that the migration energies for Ti V and N V in B1-TiN along <110> directions are 4.13 and 4.24 eV, respectively, with saddle-point transition states located halfway between initial and final atomic positions (Figure 7a). The MEAM predictions are in good agreement with DFT-NEB results, which yield energy barriers of ≈3.8 eV for N V [114] and 4.26 eV for Ti V [97]. Experimental values for vacancy migration energies in B1-TiN are scarce in the literature.…”
Section: Potential Validation Resultssupporting
confidence: 70%
“…E f V values for N and Ti vacancies (N V and Ti V , respectively), obtained using a N atom in a N 2 molecule and of a Ti atom in hcp-Ti lattice as reference chemical potentials, are E f NV = 3.53 eV and E f TiV = 4.76 eV. The corresponding DFT-based values, found in the literature, lie in the ranges 2.41–2.53 eV (N V ) [95,96] and 2.86–3.11 eV (Ti V ) [96,97]. The discrepancy between MEAM and DFT results becomes less than 10% when using the chemical potential of isolated N and Ti for computing E f V .…”
Section: Potential Parametrization Resultsmentioning
confidence: 99%
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“…Molecular dynamics simulations inherently resolve the problems mentioned above by integrating Newton's equations of motion for each atom at any temperature of interest. CMD/AIMD reaction rates for adspecies intra-and interlayer migration [22,59,60,68,111] or desorption [63,112], as well as point defects in bulk [110,113], can be employed in kinetic Monte Carlo simulations [114] to efficiently probe the effects of precursors fluxes and ion-to-metal ratios on film growth modes.…”
Section: Finite-temperature Aimd Resultsmentioning
confidence: 99%
“…Lattice anharmonicity is also known to cause deviations from an Arrhenius temperature-dependent behavior for thermodynamic and kinetic properties in bulk systems. For example, it is known that vacancy formation [106,107] and migration (or diffusion, i.e., defect formation + defect migration) energies [108][109][110] may vary considerably from 0 K up to the melting temperature. Molecular dynamics simulations inherently resolve the problems mentioned above by integrating Newton's equations of motion for each atom at any temperature of interest.…”
Section: Finite-temperature Aimd Resultsmentioning
confidence: 99%