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1 article(s) from Shirinyan, Aram

Effect of radiation-induced vacancy saturation on the first-order phase transformation in nanoparticles: insights from a model

Aram Shirinyan and
Yuriy Bilogorodskyy

Beilstein J. Nanotechnol. 2024, 15, 1453–1472, doi:10.3762/bjnano.15.117

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Figure 1: Model of a HDCM under irradiation providing a schematic representation of the irradiation treatment...

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Figure 2: Comprehensive visualization of the energy changes for the model of an iron-like nanomaterial with p...

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Figure 3: The cap-type (lenticular) nucleation mode for the α→β phase transition in a nanopowder under irradi...

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Figure 4: The nucleation energy change ΔG_ncl as a function of the number of atoms N_β at different fixed N₀. T...

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Figure 5: Size-dependent and temperature-dependent α-phase stability diagram for the model of an iron-like na...

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Figure 6: Comprehensive visualization of the energy changes. (a) Energy changes Δg for the β→α phase transfor...

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Figure 7: The cap-type (lentils) nucleation mode for the β→α phase transition in a nanoparticle under irradia...

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Figure 8: Energy difference ΔG_ncl as a function of the number of atoms N_α at different fixed sizes d (or N₀) ...

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Figure 9: Size-dependent and temperature-dependent β-phase stability diagram for the β→α-phase transition und...

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Figure 10: The impact of different defect generation rates on the shift of curves corresponding to the conditi...

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Figure 11: The impact of vacancy migration energies E_m^α and E_m^β on the shift of curves corresponding to the co...

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Figure 12: The impact of surface energies σ_α and σ_γ on the phase stability of small Fe nanoparticles. (a) Firs...

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Published 21 Nov 2024

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