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Investigation of LEPS potential energy surface for the interaction of a Pt(111) surface with a hydrogen atom

Year 2018, Volume: 20 Issue: 2, 520 - 532, 01.12.2018
https://doi.org/10.25092/baunfbed.488531

Abstract

In this work, the identification of a potential energy surface between H atom and Pt(111) surface has been studied through the use of London-Eyring-Polanyi-Sato potential energy function (PEF).  The energy values for the H–Pt(111) interaction calculated using density functional theory were used to determine the parameters of this PEF by using a nonlinear least-squares method.  For this study, four symmetric sites on the surface were considered as a top site, bridge site, fcc-hollow site and hcp hollow site.  It can be determined which sites on the Pt surface are penetration region, adsorption site or scattering site by defining the potential energy surface.  It is found that both of the hollow sites of the surface are regions where H atom can penetrate directly to subsurface and it can be held easily on the surface.

References

  • Olsen, R. A., Kroes, G. J. and Baerends, E. J., Atomic and molecular hydrogen interacting with Pt(111), The Journal of Chemical Physics.,111, 11155-11163, (1999).
  • Watson, G. W., Wells, R. P. K., Willockand, D. J. and Hutchings, G. J., ab initio simulation of the interaction of hydrogen with the {111} surfaces of platinum, palladium and nickel: A possible explanation for their difference in hydrogenation activity, Chemical Communications, 8, 705-706, (2000).
  • Nobuhara, K., Nakanishi, H., Kasai, H., and Okiji, A., Interactions of atomic hydrogen with Cu(111), Pt(111), and Pd(111), Journal of Applied Physics, 88, 6897-6901, (2000).
  • Nobuhara, K., Nakanishi, H., Kasai, H., and Okiji, A., Quantum mechanical behavior of an H atom on Cu(111) and Pt(111), Journal of Applied Physics, 91, 1855-1859, (2002).
  • Nobuhara, K., Nakanishi, H., Kasai, H., and Okiji, A., Behavior of H atom in adsorption states on metal surfaces—localization and delocalization, Surface Science, 493, 271-277, (2001).
  • Ludwig, J. and Vlachos, D. G., First principles modeling of dissociative adsorption at crystal surfaces: hydrogen on Pt(111), Molecular Simulation, 30 (11-12), 765-771, (2004).
  • Vehviläinen, T., Salo, P., Ala-Nissilaand, T. and Ying, S. C., Electronic properties of H on vicinal Pt surfaces: First-principles study, Physical Review B: Condensed Matter, 80, 035403, (2009).
  • Vurdu, C. D., Cavus, M. S. and Kandemirli, F., Investigation of H(2H) - Pt(111) interaction system: using density functional methods, 3rd International Conference on Computation for Science and Technology (ICCST-3), Advances in Computer Science Research, ISBN:978-94-62520-46-2, ISSN: 2352-538x 144-148, (2015).
  • Marchetti, J. M., González, E., Jasen, P., Brizuela, G. and Juan, A., Hydrogen adsorption and diffusion on a Pt(111) cluster, Surface Review and Letters, 15, 319-327, (2008).
  • Pašti, I. A., Gavrilov, N. M. and Mentus, S. V., Hydrogen adsorption on palladium and platinum over layers: DFT study, Advances in Physical Chemistry, 2011 Article ID 305634, 8 pages, (2011).
  • Ludwig, J., Vlachos, D. G., vanDuin, A. C. T. and Goddard, W. A., Dynamics of the dissociation of hydrogen on stepped platinum surfaces using the ReaxFF reactive force field, The Journal of Physical Chemistry B, 110, 4274-4282, (2006).
  • Güvenç, Z. B., Sha, X. and Jackson, B., Eley–Rideal and hot atom reactions between hydrogen atoms on Ni(100): Electronic structure and quasi classical studies, The Journal of Chemical Physics, 115, 9018-9027, (2001).
  • Jackson, B., Sha, X. and Güvenç, Z. B., Kinetic model forEley–Ridealand hot atom reactions between H atoms on metal surfaces, The Journal of Chemical Physics, 116, 2599-2608, (2002).
  • Güvenç, Z. B., Sha, X. and Jackson, B., The effects of lattice motion on eley-rideal and hot atom reactions: quasi classical studies of hydrogen recombination on Ni(100), The Journal of Physical Chemistry B, 106 (33), 8342–8348, (2002).
  • Güvenç, Z. B. and Güvenç, D., Hydrogen recombination on a mixed adsorption layer at saturation on a metal surface: H → (D + H)sat + Ni(100), Surface Science, 529 (1-2), 11–22, (2003).
  • Shalashilin, D. V., Jackson, B., and Persson, M., Eley–Rideal and hot-atom dynamics of HD formation by H(D) incident from the gas phase on D(H)-covered Cu(111), Faraday Discussions, 110, 287-300, (1998).
  • Persson, M., Strömquist, J., Bengtsson, L., Jackson, B., Shalashilin, D. V., and Hammer, B., A first-principles potential energy surface for Eley–Rideal reaction dynamics of H atoms on Cu(111), The Journal of Chemical Physics, 110, 2240-2249, (1999).
  • Shalashilin, D. V., Jackson, B. and Persson, M., Eley–Rideal and hot-atom reactions of H(D) atoms with D(H)-covered Cu(111) surfaces; quasi classical studies, The Journal of Chemical Physics, 110, 11038-11046, (1999).
  • Vurdu, C. D., Özçelik, S. and Güvenç, Z. B., Quasi classical studies of Eley–Rideal and hot-atom reactions on a surface at 94 K: H(D) → D(H) + Cu(111), Surface Science, 601 (18), 3745–3749, (2007).
  • Vurdu, C. D. and Güvenç, Z. B., H(D) → D(H) + Cu(111) collision system: Molecular dynamics study of surface temperature effects, The Journal of Chemical Physics, 134 (16), 164306, (2011).
  • Vurdu, C. D. and Güvenç, Z. B., Developing interaction potential for H (2H) → Cu(111) interaction system: A numerical study, Communications in Nonlinear Science and Numerical Simulation, 15 (3), 648–656, (2010).
  • Voter, A. F., Embedded atom method potentials for seven fcc metals: Ni, Pd, Pt, Cu, Ag, Au and Al, Los Alamos Unclassified Technical Report LA-UR 93-3901, 242, (1993).

Pt (111) yüzeyi ile hidrojen atomunun etkileşimi için LEPS potansiyel enerji yüzeyinin incelenmesi

Year 2018, Volume: 20 Issue: 2, 520 - 532, 01.12.2018
https://doi.org/10.25092/baunfbed.488531

Abstract

Bu çalışmada, London-Eyring-Polanyi-Sato potansiyel fonksiyonunun kullanımı ile H atomu ile Pt (111) yüzeyi arasındaki potansiyel enerji yüzeyinin tanımlanması teorik olarak incelenmiştir.  Yoğunluk fonksiyonel teorisi kullanılarak hesaplanan H – Pt(111) etkileşimine ait enerji değerleri, bu potansiyelin parametrelerinin lineer olmayan en küçük kareler yöntemi kullanılarak belirlenmesi için kullanılmıştır.  Bu çalışma için, yüzeydeki dört simetrik alan, tepe bölgesi, köprü bölgesi, fcc- boşluk bölgesi ve hcp-boşluk bölgesi olarak düşünülmüştür.  Potansiyel enerji yüzeyinin tanımlanmasıyla, hidrojen atomunun yüzeyde tutunabileceği ve alt yüzeye kolayca nüfuz edebileceği bölgeler tespit edilmiştir. Yüzeyin boş bölgerinin, H atomunun doğrudan alt yüzeye geçtiği ve H atomunun yüzey üzerinde kolaylıkla tutulabileceği bölgeler olduğu bulunmuştur.

References

  • Olsen, R. A., Kroes, G. J. and Baerends, E. J., Atomic and molecular hydrogen interacting with Pt(111), The Journal of Chemical Physics.,111, 11155-11163, (1999).
  • Watson, G. W., Wells, R. P. K., Willockand, D. J. and Hutchings, G. J., ab initio simulation of the interaction of hydrogen with the {111} surfaces of platinum, palladium and nickel: A possible explanation for their difference in hydrogenation activity, Chemical Communications, 8, 705-706, (2000).
  • Nobuhara, K., Nakanishi, H., Kasai, H., and Okiji, A., Interactions of atomic hydrogen with Cu(111), Pt(111), and Pd(111), Journal of Applied Physics, 88, 6897-6901, (2000).
  • Nobuhara, K., Nakanishi, H., Kasai, H., and Okiji, A., Quantum mechanical behavior of an H atom on Cu(111) and Pt(111), Journal of Applied Physics, 91, 1855-1859, (2002).
  • Nobuhara, K., Nakanishi, H., Kasai, H., and Okiji, A., Behavior of H atom in adsorption states on metal surfaces—localization and delocalization, Surface Science, 493, 271-277, (2001).
  • Ludwig, J. and Vlachos, D. G., First principles modeling of dissociative adsorption at crystal surfaces: hydrogen on Pt(111), Molecular Simulation, 30 (11-12), 765-771, (2004).
  • Vehviläinen, T., Salo, P., Ala-Nissilaand, T. and Ying, S. C., Electronic properties of H on vicinal Pt surfaces: First-principles study, Physical Review B: Condensed Matter, 80, 035403, (2009).
  • Vurdu, C. D., Cavus, M. S. and Kandemirli, F., Investigation of H(2H) - Pt(111) interaction system: using density functional methods, 3rd International Conference on Computation for Science and Technology (ICCST-3), Advances in Computer Science Research, ISBN:978-94-62520-46-2, ISSN: 2352-538x 144-148, (2015).
  • Marchetti, J. M., González, E., Jasen, P., Brizuela, G. and Juan, A., Hydrogen adsorption and diffusion on a Pt(111) cluster, Surface Review and Letters, 15, 319-327, (2008).
  • Pašti, I. A., Gavrilov, N. M. and Mentus, S. V., Hydrogen adsorption on palladium and platinum over layers: DFT study, Advances in Physical Chemistry, 2011 Article ID 305634, 8 pages, (2011).
  • Ludwig, J., Vlachos, D. G., vanDuin, A. C. T. and Goddard, W. A., Dynamics of the dissociation of hydrogen on stepped platinum surfaces using the ReaxFF reactive force field, The Journal of Physical Chemistry B, 110, 4274-4282, (2006).
  • Güvenç, Z. B., Sha, X. and Jackson, B., Eley–Rideal and hot atom reactions between hydrogen atoms on Ni(100): Electronic structure and quasi classical studies, The Journal of Chemical Physics, 115, 9018-9027, (2001).
  • Jackson, B., Sha, X. and Güvenç, Z. B., Kinetic model forEley–Ridealand hot atom reactions between H atoms on metal surfaces, The Journal of Chemical Physics, 116, 2599-2608, (2002).
  • Güvenç, Z. B., Sha, X. and Jackson, B., The effects of lattice motion on eley-rideal and hot atom reactions: quasi classical studies of hydrogen recombination on Ni(100), The Journal of Physical Chemistry B, 106 (33), 8342–8348, (2002).
  • Güvenç, Z. B. and Güvenç, D., Hydrogen recombination on a mixed adsorption layer at saturation on a metal surface: H → (D + H)sat + Ni(100), Surface Science, 529 (1-2), 11–22, (2003).
  • Shalashilin, D. V., Jackson, B., and Persson, M., Eley–Rideal and hot-atom dynamics of HD formation by H(D) incident from the gas phase on D(H)-covered Cu(111), Faraday Discussions, 110, 287-300, (1998).
  • Persson, M., Strömquist, J., Bengtsson, L., Jackson, B., Shalashilin, D. V., and Hammer, B., A first-principles potential energy surface for Eley–Rideal reaction dynamics of H atoms on Cu(111), The Journal of Chemical Physics, 110, 2240-2249, (1999).
  • Shalashilin, D. V., Jackson, B. and Persson, M., Eley–Rideal and hot-atom reactions of H(D) atoms with D(H)-covered Cu(111) surfaces; quasi classical studies, The Journal of Chemical Physics, 110, 11038-11046, (1999).
  • Vurdu, C. D., Özçelik, S. and Güvenç, Z. B., Quasi classical studies of Eley–Rideal and hot-atom reactions on a surface at 94 K: H(D) → D(H) + Cu(111), Surface Science, 601 (18), 3745–3749, (2007).
  • Vurdu, C. D. and Güvenç, Z. B., H(D) → D(H) + Cu(111) collision system: Molecular dynamics study of surface temperature effects, The Journal of Chemical Physics, 134 (16), 164306, (2011).
  • Vurdu, C. D. and Güvenç, Z. B., Developing interaction potential for H (2H) → Cu(111) interaction system: A numerical study, Communications in Nonlinear Science and Numerical Simulation, 15 (3), 648–656, (2010).
  • Voter, A. F., Embedded atom method potentials for seven fcc metals: Ni, Pd, Pt, Cu, Ag, Au and Al, Los Alamos Unclassified Technical Report LA-UR 93-3901, 242, (1993).
There are 22 citations in total.

Details

Primary Language English
Journal Section Research Articles
Authors

Can Doğan Vurdu 0000-0002-5179-1266

Publication Date December 1, 2018
Submission Date March 28, 2018
Published in Issue Year 2018 Volume: 20 Issue: 2

Cite

APA Vurdu, C. D. (2018). Investigation of LEPS potential energy surface for the interaction of a Pt(111) surface with a hydrogen atom. Balıkesir Üniversitesi Fen Bilimleri Enstitüsü Dergisi, 20(2), 520-532. https://doi.org/10.25092/baunfbed.488531
AMA Vurdu CD. Investigation of LEPS potential energy surface for the interaction of a Pt(111) surface with a hydrogen atom. BAUN Fen. Bil. Enst. Dergisi. December 2018;20(2):520-532. doi:10.25092/baunfbed.488531
Chicago Vurdu, Can Doğan. “Investigation of LEPS Potential Energy Surface for the Interaction of a Pt(111) Surface With a Hydrogen Atom”. Balıkesir Üniversitesi Fen Bilimleri Enstitüsü Dergisi 20, no. 2 (December 2018): 520-32. https://doi.org/10.25092/baunfbed.488531.
EndNote Vurdu CD (December 1, 2018) Investigation of LEPS potential energy surface for the interaction of a Pt(111) surface with a hydrogen atom. Balıkesir Üniversitesi Fen Bilimleri Enstitüsü Dergisi 20 2 520–532.
IEEE C. D. Vurdu, “Investigation of LEPS potential energy surface for the interaction of a Pt(111) surface with a hydrogen atom”, BAUN Fen. Bil. Enst. Dergisi, vol. 20, no. 2, pp. 520–532, 2018, doi: 10.25092/baunfbed.488531.
ISNAD Vurdu, Can Doğan. “Investigation of LEPS Potential Energy Surface for the Interaction of a Pt(111) Surface With a Hydrogen Atom”. Balıkesir Üniversitesi Fen Bilimleri Enstitüsü Dergisi 20/2 (December 2018), 520-532. https://doi.org/10.25092/baunfbed.488531.
JAMA Vurdu CD. Investigation of LEPS potential energy surface for the interaction of a Pt(111) surface with a hydrogen atom. BAUN Fen. Bil. Enst. Dergisi. 2018;20:520–532.
MLA Vurdu, Can Doğan. “Investigation of LEPS Potential Energy Surface for the Interaction of a Pt(111) Surface With a Hydrogen Atom”. Balıkesir Üniversitesi Fen Bilimleri Enstitüsü Dergisi, vol. 20, no. 2, 2018, pp. 520-32, doi:10.25092/baunfbed.488531.
Vancouver Vurdu CD. Investigation of LEPS potential energy surface for the interaction of a Pt(111) surface with a hydrogen atom. BAUN Fen. Bil. Enst. Dergisi. 2018;20(2):520-32.