4.7 Article

Surface and segregation energies of Ag based alloys with Ni, Co and Fe: Direct experimental measurement and DFT study

Journal

ACTA MATERIALIA
Volume 205, Issue -, Pages -

Publisher

PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.actamat.2020.116565

Keywords

Surface; Segregation; Surface energy; Silver-based alloys

Funding

  1. Russian Scientific Foundation [19-72-10160]
  2. COMET program within the K2 Center Integrated Computational Material, Process and Product Engineering (IC-MPPE) [859480]
  3. Austrian Federal Ministry for Climate Action, Environment, Energy, Mobility, Innovation and Technology (BMK)
  4. Austrian Federal Ministry for Digital and Economic Affairs (BMDW)
  5. Russian Science Foundation [19-72-10160] Funding Source: Russian Science Foundation

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The surface energy of Ag + 0.5 at.% Fe alloy was directly measured, and segregation energy calculations in silver-based systems with iron, cobalt, and nickel were carried out. It was found that alloying silver with Ni, Co, and Fe increased the surface energy, with a stronger effect at lower temperatures. Experimental observations and DFT calculations both showed a strong anti-segregation behavior of Ni, Co, and Fe in Ag surfaces, indicating the fundamental reversibility of the Gibbs adsorption equation.
A direct measurement of the surface energy polytherm in Ag + 0.5 at.% Fe alloy and first-principles calculations of segregation energy in silver-based systems with iron, cobalt and nickel were performed. The surface energy was measured in situ on silver foils with 16 mu m thickness in the temperature range (0.8 0.95) T-m(Ag) in Ar+10% H-2 atmosphere. Iron was introduced by electrolytic deposition and annealing. The segregation energy calculations were performed using density functional theory (DFT). DFT calculations were used to obtain the segregation energies of Fe, Co and Ni on the (100), (110), and (111) surfaces of Ag. It was shown that alloying of silver with Ni, Co and Fe (similar to 0.5 at.%) leads to a significant increase in the surface energy and this effect increased with decreasing temperature. The alloys behaved in a similar way with decreasing temperature: the surface energy of the alloys increased to values close to the surface energy values of the second components in their standard reference states. DFT calculations of the segregation energy showed a strong anti-segregation behavior of Ni, Co and Fe in Ag; the segregation energy took positive values of about 0.4 eV/atom for all solute atoms. Surface studies by AFM and AES methods showed that the surface was two-phase, a silver phase and a small fraction of the second bcc-Fe phase particles coated with a thin silver layer. These observations indicated a quite pronounced desorption of iron on silver on one hand and the adsorption of silver on iron on the other hand. The positive segregation energies of Ni, Co and Fe to Ag surfaces, experimentally observed desorption behavior of these solutes as well as an increase of the surface energy with the increasing concentration of the second component, point at the fundamental reversibility of the Gibbs adsorption equation. (C) 2020 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved.

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