S. S. Moskalenko, J. A. Melkozerova, A.E. Ieshkin, I. Gainullin
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引用次数: 0
摘要
在这项研究中,使用密度泛函理论计算了纯镍和钯金属的表面结合能。得到的值分别为 5.32 eV 和 4.65 eV,这代表了良好的非线性计算精度。这项工作还包括计算镍钯合金不同配置的表面结合能,镍和钯的浓度分别为 66%、50% 和 33%。对镍和钯表面结合能的每种晶格类型都进行了计算。模拟了几种类型的晶格,发现镍和钯的平均表面结合能分别为在镍浓度为 50% 的合金中分别为 5.02 eV 和 4.36 eV;在镍浓度为 66% 的合金中分别为 4.89 eV 和 4.22 eV;在镍浓度为 33% 的合金中分别为 5.12 eV 和 4.40 eV。
Calculation of Surface Binding Energy in NixPdy Alloys Using Density Functional Theory
In the study, surface binding energies for pure Ni and Pd metals were calculated using density functional
theory. The values obtained were 5.32 eV and 4.65 eV, respectively, which represents good accuracy for ab
initio calculations. The work also included calculations of surface binding energy for different configurations of
NiPd alloys with nickel and palladium concentrations of 66%, 50%, and 33%. Calculations were performed for
each type of lattice for both Ni and Pd surface binding energies. Several types of lattices were simulated, and
it was found that the average surface binding energies for Ni and Pd are: 5.02 eV and 4.36 eV respectively in
the alloy with a Ni concentration of 50%; 4.89 eV and 4.22 eV respectively in the alloy with a Ni concentration
of 66%; 5.12 eV and 4.40 eV respectively in the alloy with a Ni concentration of 33%.
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