prof Adam Kiejna

Telefon: (71) 375 9264
Login: kiejna
E-mail: login@ifd.uni.wroc.pl

Tytul profesora

Data: Mar 15, 2002
Osoba: Adam Kiejna

Publikacje
  • Tomasz Ossowski, Ying Wang, Giovanni Carraro, Adam Kiejna, Mikołaj Lewandowski,Structure of mono- and bilayer FeO on Ru(0001): STM and DFT study,Journal of Magnetism and Magnetic Materials 546 (2022) 168832,1-9
  • Natalia Michalak, Tomasz Ossowski, Zygmunt Miłosz, Mauricio J. Prieto, Ying Wang, Mirosław Werwiński, Višnja Babačić, Francesca Genuzio, Luca Vattuone, Adam Kiejna, Thomas Schmidt, Mikołaj Lewandowski ,Ostwald Ripening in an Oxide-on-Metal System, Advanced Materials Interfaces 9 (2022) 2200222,1-7
  • Tomasz Ossowski, Tomasz Pabisiak, Adam Kiejna, Krisztián Palotás, Ernst Bauer,Simulation of STM Images of Hematite α‑Fe2O3(0001) Surfaces: Dependence on Distance and Bias,Journal of Physical Chemistry C 125 (2021) 26711−26717
  • Adam Kiejna, Tomasz Ossowski, Tomasz Pabisiak,Gold nanostructures on iron oxide surfacesand their interaction with CO, JOURNAL OF PHYSICS-CONDENSED MATTER 32 (43) (2020) 433001, 1-11
  • Adam Kiejna,Polskie Towarzystwo Fizyczne we Lwowie i Wrocławiu,Postępy Fizyki 71 (4) (2020) 77-86
  • Adam Kiejna, Tomasz Pabisiak,Effect of substrate relaxation on adsorption energies: The example of α-Fe2O3(0001) and Fe3O4(111),SURFACE SCIENCE 679 (2019) 225-229
  • Tomasz Pabisiak. Adam Kiejna ,Incipient adsorption of water and hydroxyl on hematite (0001) surface,Journal of Physics Communications 3 (2019) 035023, 1-12
  • Tomasz Ossowski, Juarez L. F. Da Silva, Adam Kiejna ,Water adsorption on the stoichiometric and defected Fe(110) surfaces.,Surface Science 668 (2018) 144–149 668 (2018) 144–149
  • Rafael L. H. Freire, Diego Guedes-Sobrinho, Adam Kiejna, Juarez L. F. Da Silva,Comparison of the Performance of van der Waals Dispersion Functionals in the Description of Water and Ethanol on Transition Metal Surfaces ,Journal of Physical Chemistry C 122 (2018) 1577−1588
  • A. Kiejna, T. Ossowski,Water Adsorption on bcc Iron Surfaces,Encyclopedia of Interfacial Chemistry: Surface Science and Electrochemistry 2 (2018) 298-303
  • Mikołaj Lewandowski, Tomasz Pabisiak, Natalia Michalak, Zygmunt Miłosz, Višnja Babačić, Ying Wang, M. Hermanowicz, Krisztián Palotás, Stefan Jurga, Adam Kiejna,On the Structure of Ultrathin FeO Films on Ag(111),NANOMATERIALS 8 (10) (2018) 828, 1-19
  • Adam Kiejna, Tomasz Pabisiak,Gold subnano-structures on iron-oxide surface for catalytic oxidation of carbon monoxide,Atlas of Science - http://atlasofscience.org (2017)
  • E. Wachowicz, T. Ossowski, A. Kiejna,DFT study of stepped 4H-SiC{0001} surfaces,Applied Surface Science 420 (2017) 129–135
  • Damian Wiśnios, Adam Kiejna, Józef Korecki,Towards understanding MgO/Fe interface formation: Adsorption of O and Mg atoms on an Fe(001) surface,Physical Review B 96 (2017) 115418
  • Adam Kiejna, Tomasz Ossowski,Water Adsorption on bcc Iron Surfaces,Reference Module in Chemistry, Molecular Sciences and Chemical Engineering (2017)
  • Tomasz Pabisiak, Maciej J. Winiarski, Adam Kiejna,CO adsorption on small Aun (n = 1–4) structures supported on hematite. I. Adsorption on iron terminated α-Fe2O3 (0001) surface,The Journal Of Chemical Physics 144 (2016) 044704
  • Tomasz Pabisiak, Maciej J. Winiarski, Adam Kiejna,CO adsorption on small Aun (n = 1–4) structures supported on hematite. II. Adsorption on the O-rich termination α-Fe2O3 (0001) surface,The Journal Of Chemical Physics 144 (2016) 044705
  • Kinga Freindl, Tomasz Ossowski, Marcin Zając, Nika Spiridis, Dorota Wilgocka-Ślęzak, Ewa Madej, Tomasz Giela, Adam Kiejna, Józef Korecki,Oxygen Adsorption on the Fe(110) Surface: The Old System − New Structures,The Journal Of Physical Chemistry C 120 (2016) 3807−3813
  • Tomasz Pabisiak, Maciej J. Winiarski, Tomasz Ossowski, Adam Kiejna,Adsorption of gold subnano-structures on a magnetite(111) surface and their interaction with CO,Physical Chemistry Chemical Physysics 18 (2016) 18169-18179
  • Yohanna Seminovski, Polina Tereshchuk, Adam Kiejna, Juarez L. F. Da Silva,The role of the cationic Pt sites in the adsorption properties of water and ethanol on the Pt4/Pt(111) and Pt4/CeO2(111) substrates: A density functional theory investigation,The Journal of Chemical Physics 145 (2016) 124709
  • Rafael L. H. Freire, Adam Kiejna, Juarez L. F. Da Silva,Adsorption of water and ethanol on noble and transition-metal substrates: a density functional investigation within van der Waals corrections,Physical Chemistry Chemical Physics 18 (2016) 29526-29536
  • Mikołaj Lewandowski, Irene M. N. Groot, Zhi-Hui Qin, Tomasz Ossowski, Tomasz Pabisiak, Adam Kiejna, Anastassia Pavlovska, Shamil Shaikhutdinov, Hans-Joachim Freund, Ernst Bauer,Nanoscale Patterns on Polar Oxide Surfaces,Chemistry of Materials 28 (2016) 7433−7443
  • Polina Tereshchuk, Rafael L. H. Freire, Crina G. Ungureanu, Yohanna Seminovski, Adam Kiejna, Juarez L. F. Da Silva,The role of charge transfer in the oxidation state change of Ce atoms in the TM13–CeO2(111) systems (TM = Pd, Ag, Pt, Au): a DFT + U investigation,Physical Chemistry Chemical Physics 17 (2015) 13520
  • Tomasz Ossowski, Adam Kiejna,Oxygen adsorption on Fe(110) surface revisited,Surface Science 637–638 (2015) 35–41
  • Rafael L. H. Freire, Adam Kiejna, Juarez L. F. Da Silva,Correction to "Adsorption of Rh, Pd, lr, and Pt on the Au(1 1 1) and Cu(l 1 1) Surfaces: A Density Functional Theory lnvestigation",Journal of Physical Chemistry C 119 (2015) 21744
  • Damian Wiśnios, Adam Kiejna, Józef Korecki,First principles study of the adsorption of MgO molecules on a clean Fe(001) surface,Physical Review B 92 (2015) 155425
  • Rafael L. H. Freire, Adam Kiejna, Juarez L. F. Da Silva ,Adsorption of Rh, Pd, Ir, and Pt on the Au(111) and Cu(111) Surfaces: A Density Functional Theory Investigation,J. Phys. Chem. C 118 (2014) 19051-19061
  • Tomasz Pabisiak, Adam Kiejna,Fe adsorption on hematite (α-Fe2O3) (0001) and magnetite (Fe3O4) (111) surfaces,Journal Of Chemical Physics 141 (2014) 134707
  • A. Kiejna,Work function of metals,Reference Module in Chemistry, Molecular Sciences and Chemical Engineernig (2014)
  • Adam Kiejna, Tomasz Pabisiak, Mixed Termination of Hematite (α-Fe2O3)(0001) Surface,J. Phys. Chem. C 117 (46) (2013) 24339–24344.
  • E. Wachowicz, A. Kiejna,Potential Energy Surfaces for H Adsorbed at 4H-SiC{0001} Surfaces , Acta Physica Polonica A 124 (2013) 765-767.
  • Adam Kiejna,Tomasz Ossowski, Tomasz Pabisiak, Surface properties of the clean and Au/Pd covered Fe3 O4 (111): DFT and DFT+U study ,Physical Review B 85 (2012) 125414-1/11.
  • Adam Kiejna, Tomasz Pabisiak,Surface properties of clean and Au or Pd covered hematite (α-Fe2O3) (0001),J. Phys.: Condens. Matter 24 (2012) 095003 (16pp).
  • Duy Le, Maral Aminpour, Adam Kiejna, Talat S Rahman,The role of van der Waals interaction in the tilted binding of amine molecules to the Au(111) surface ,J. Phys.: Condens. Matter 24 (2012) 222001 (4pp).
  • Elwira Wachowicz, Adam Kiejna,Structure and energetics changes during hydrogenation of 4H-SiC{0001} surfaces: a DFT study,J. Phys.: Condens. Matter 24 (2012) 385801 (7pp).
  • T. Pabisiak, A. Kiejna,Stability of gold nanostructures on rutile TiO2(110) surface ,Surface Science 605 (2011) 668-674.
  • E.E. Zhurkin, M. Hou, J. Kuriplach, T. Ossowski, A. Kiejna,Grain boundary segregation in low Cr Fe-Cr alloys: The effect of radiation induced vacancies studied by metropolis Monte Carlo simulations ,Nuclear Instruments and Methods in Physics Research B 269 (2011) 1679-1683.
  • E. Wachowicz, T. Ossowski, A. Kiejna,Cohesive and magnetic properties of grain boundaries in bcc Fe with Cr additions,Physical Review B 81 (2010) 094104(9).
  • T. Ossowski, E. Wachowicz, A. Kiejna,Effect of iron additions on intergranular cohesion in chromium,J. Phys.: Condens. Matter 21 (2009) 485002 (8pp).
  • Tomasz Pabisiak, Adam Kiejna,First-principles study of Au nanostructures on rutile TiO2(110),Physical Review B 79 (2009) 085411-9.
  • Tomasz Ossowski, A. Kiejna,Density functional study of surface properties of chromium,Surface Science 602 (2008) 517-524.
  • Piotr Błoński, Adam Kiejna, Jürgen Hafner,Dissociative adsorption of O2 molecules on O-precovered Fe(110) and Fe(100): Density-functional calculations,Physical Review B 77 (2008) 155424.
  • Szymon Owczarek, Elwira Wachowicz , Adam Kiejna,Monte Carlo study of oxidation of the 3C-SiC(0 0 1) 3 x 2 surface,Applied Surface Science 254 (2008) 4352-4356.
  • Adam Kiejna, Elwira Wachowicz,Segregation of Cr impurities at bcc iron surfaces: First-principles calculations,Physical Review B 78 (2008) 113403-4.
  • E. Wachowicz, A. Kiejna,Effect of impurities on grain boundary cohesion in bcc iron,Computational Materials Science 43 (2008) 736-743.
  • Piotr Błoński, Adam Kiejna,Structural, electronic, and magnetic properties of bcc iron surfaces,Surface Science 601 (2007) 123-133.
  • Piotr Błoński, Adam Kiejna, J. Hafner,Oxygen adsorption on the clean and O-precovered Fe (110) and (100) surfaces,J. Phys.: Condens. Matter 19 (2007) 096011, 1-8.
  • A. Locatelli, T. Pabisiak, A. Pavlovska, T. O. Mentes, L. Aballe, A. Kiejna, E. Bauer,One-dimensional Au on TiO2,J. Phys.: Condens. Matter 19 (2007) 082202,1-8.
  • Tomasz Pabisiak, Adam Kiejna,Energetics of oxygen vacancies at rutile TiO2(110) surface,Solid State Communications 144 (2007) 324-328.
  • T. O. Menteº, A. Locatelli, L. Aballe, A. Pavlovska, E. Bauer, T. Pabisiak, A. Kiejna,Surface modification of oxides by electron-stimulated desorption for growth-mode control of metal films: Experiment and density-functional calculations,Physical Review B 76 (2007) 155413-1-14.
  • Adam Kiejna, Georg Kresse, Jutta Rogal, Abir De Sarkar, Karsten Reuter, Matthias Scheffler,Comparison of the full-potential and frozen-core approximation approaches to density-functional calculations of surfaces ,Physical Review B 73 (2006) 035404-8.
  • A. Kiejna, T. Pabisiak, S. W. Gao,The energetics and structure of rutile TiO2 (110),J. Phys.: Condens. Matter 18 (2006) 4207-4217.
  • A. Kiejna,Comparative study of Ag, Au, Pd, and Pt adsorption on Mo and Ta (112) surfaces ,Physical Review B 74 (2006) 235429.
  • A. Kiejna, A. Ciszewski,Preface,Surface Science 600 (2006) 1565.
  • P. Błoński, A. Kiejna, J. Hafner,Theoretical study of oxygen adsorption at the Fe(110) and (100) surfaces ,Surface Science 590 (2005) 88-100.
  • V.G. Zavodinsky, M.A. Kuzmenko, A. Kiejna,Ab initio simulation of copper and silver adsorption on the MgO(111) surface ,Surface Science 589 (2005) 114-119.
  • A. Kiejna,Surface atomic structure and energetics of tantalum,Surface Science 598 (2005) 276-284.
  • V.V. Pogosov, V.B. Kurbatsky, D.P. Kotylarov, A. Kiejna,Simple model for energy and force characteristics of metallic nanocontacts,Ukrainian Journal of Physics 49 (2004) 167-173.
  • P. Błoński, A. Kiejna,Calculation of surface properties of bcc iron,Vacuum 74 (2004) 179-183.
  • A. Kiejna, R.M. Nieminen,Energetics of Sr adatom interactions on the Mo(112) surface ,Physical Review B 69 (2004) 235424.
  • E. Schröder, R. Fasel, A. Kiejna,Mg(0001) surface oxidation: A two-dimensional oxide phase,Physical Review B 69 (2004) 193405.
  • E. Schröder, R. Fasel, A. Kiejna,O adsorption and incipient oxidation of the Mg(0001) surface,Physical Review B 69 (2004) 115431.
  • T. Ossowski, A. Kiejna,Low coverage K adsorption on Mg(0001) surface,Surface Science 566-568 (2004) 983-988.
  • A. Kiejna, T. Ossowski, E. Wachowicz,Alkali metals adsorption on the Mg(0001) surface,Surface Science 548 (2004) 22-28.
  • A. Kiejna,Vacancy formation and O adsorption at the Al(111) surface,Physical Review B 68 (2003) 235405, 1-6.
  • V.G. Zavodinsky, A. Kiejna,Density functional study of alkali metals adsorption on the MgO(111) surface,Surface Science 538 (2003) 240-248.
  • A. Kiejna, J.M. Rogowska,Atomic interactions in adsorbed metallic layers on metals,Recent Developments in Vacuum Science and Technology , ed. by J. Dąbrowski, Research Signpost, Trivadrum (2003) 133-156.
  • A. Kiejna, B.I. Lundquist,Stability of oxygen adsorption sites and ultrathin aluminium oxide films on Al(111),Surface Science 504 (2002) 1-10.
  • A. Kiejna, R.M. Nieminen,First-principles calculations of Li adatom structures on the Mo(112) surface,Physical Review B 66 (2002) 085407, 1-8.
  • A. Kiejna, B.I. Lundqvist,First-principles study of surface and subsurface O structures at Al (111),Physical Review B 63 (2001) 085405, 10.
  • V.V. Pogosov, A. Kiejna, D.P. Kotlyarov,Sum-rule approach in the theory of charged self-compresed dielectric droplets,Physica A 293 (2001) 59-70.
  • V.V. Pogosov, D.P. Kotlyarov, A. Kiejna, K.F. Wojciechowski,Energetics of finite metallic nanowires,Surface Science 472 (2001) 172-178.
  • A. Kiejna,Stulecie wzoru i stałej Plancka,Wiadomości Chemiczne 55 (2001) 174-188.
  • A. Kiejna,In memoriam of Prof. K. Wojciechowski,Progress in Surface Science 66 (2001) 155-157.
  • E. Wachowicz, A. Kiejna,Bulk and surface properties of hexagonal-close-packed Be and Mg,Journal of Physics: Condensed Matter 13 (2001) 10767–107