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for (diebold)

232 publications have been found:

  1. Sputtering of LiF(100) with low energetic Ne+ and Ne2+ ions
    D. Wutte, U. Diebold, M. Schmid and P. Varga
    Nucl. Instrum. Methods Phys. Research B 65 (1992) 167-172
  2. Sputtering of metals and insulators with hyperthermal singly and doubly charged rare gas ions
    P. Varga and U. Diebold
    Low-Energy Ion-Surface Interactions
    Ed. J.W: Rabalais (John Wiley & Sons 1994) pp. 355-386
  3. Intrinsic defects on a TiO2(110)(1x1) surface and their reaction with oxygen: A scanning tunneling microscopy study
    U. Diebold, J. Lehman, T. Mahmoud, M. Kuhn, G. Leonardelli1, W. Hebenstreit1, M. Schmid1, and P. Varga1
    Surf. Sci. 411 (1998) 137-153
  4. High transient mobility of chlorine on TiO2(110): evidence for "cannon-ball" trajectories of hot adsorbates
    U. Diebold, W. Hebenstreit, G. Leonardelli1, M. Schmid1, and P. Varga1
    Phys. Rev. Lett. 81 (1998) 405-408
  5. Surface Reconstructions of Fe3O4(001)
    B. Stanka1,2, W. Hebenstreit1, U. Diebold1, and S.A. Chambers3
    Surf. Sci. 448 (2000) 49-63
  6. Structure of an ultrathin TiOx film, formed by the strong metal support interaction (SMSI), on Pt nanocrystals on TiO2(110)
    D. R. Jennison, O. Dulub, W. Hebenstreit, U. Diebold
    Surf. Sci. 492 (2001) L677-L687
  7. Bulk-defect dependent adsorption on a metal oxide surface: S/TiO2(110)
    E. L. D. Hebenstreit, W. Hebenstreit, H. Geisler, C. A. Ventrice Jr., P. T. Sprunger, U. Diebold
    Surf. Sci. 486 (2001) L467-L474
  8. Structures of sulfur on TiO2(110) determined by scanning tunneling microscopy, X-ray photoelectron spectroscopy and low-energy electron diffraction
    E. L. D. Hebenstreit, W. Hebenstreit, U. Diebold
    Surf. Sci. 470 (2001) 347-360
  9. STM study of the geometric and electronic structure of ZnO(0001)-Zn, (000-1)-O, (10-10), and (11-20) surfaces
    O. Dulub, L. A. Boatner, U. Diebold
    Surf. Sci. 519 (2002) 201-217
  10. Ab initio and experimental studies of chlorine adsorption on the rutile TiO2 (110) surface
    D. Vogtenhuber, R. Podloucky, J. Redinger, E. Hebenstreit, W. Hebenstreit, U. Diebold
    Phys. Rev. B 65 (2002) 125411
  11. Current-controlled channel switching and magnetoresistance in an Fe3C island film supported on a Si substrate
    J. Tang, J. Dai, K. Wang, W. Zhou, N. Ruzycki, U. Diebold
    J. Appl. Phys. 91 (2002) 8411-8413
  12. Decay channels for the Ti(2p1/2) core hole excitations in TiO2 observed by x-ray Raman scattering
    J. Jiménez-Mier, U. Diebold, D. Ederer, T. Callcott, M. Grush, R. Perera
    Phys. Rev. B 65 (2002) 184105
  13. The adsorption of chlorine on TiO2(110) studied with scanning tunneling microscopy and photoemission spectroscopy
    E. L. D. Hebenstreit, W. Hebenstreit, H. Geisler, C. A. Ventrice, D. A. Hite, P. T. Sprunger, U. Diebold
    Surf. Sci. 505 (2002) 336-348
  14. STM study of the geometric and electronic structure of ZnO(0001)-Zn, (000-1)-O, (10-10), and (11-20) surfaces
    O. Dulub, L. A. Boatner, U. Diebold
    Surf. Sci. 519 (2002) 201-217
  15. STM study of Cu growth on the ZnO(10-10) surface
    O. Dulub, L. A. Boatner, U. Diebold
    Surf. Sci. 504 (2002) 271-281
  16. Variations of the local electronic surface properties of TiO2(110) induced by intrinsic and extrinsic defects
    M. Batzill, K. Katsiev, D. J. Gaspar, U. Diebold
    Phys. Rev. B 66 (2002) 235401
  17. The surface science of titanium dioxide
    U. Diebold
    Surf. Sci. Rep. 48 (2003) 53-229
  18. Novel Stabilization Mechanism on Polar Surfaces: ZnO(0001)-Zn
    O. Dulub, U. Diebold, G. Kresse
    Phys. Rev. Lett. 90 (2003) 016102
  19. Scanning tunneling microscopy study of the anatase (100) surface
    N. Ruzycki, G. S. Herman, L. A. Boatner, U. Diebold
    Surf. Sci. 529 (2003) L239
  20. The locus of sulfate sites on sulfated zirconia
    R. Marcus, U. Diebold, R. D. Gonzalez
    Catal. Lett. 86 (2003) 151-156
  21. Dynamics of the TiO2(110) surface and step: Onset of defects in the ordered structure
    I. Kuyanov, D. Lacks, U. Diebold
    Phys. Rev. B 68 (2003) 233404
  22. Competing stabilization mechanism for the polar ZnO(0001)-Zn surface
    G. Kresse, O. Dulub, U. Diebold
    Phys. Rev. B 68 (2003) 245409
  23. STM study of copper growth on ZnO(0001)-Zn and ZnO(000-1)-O surfaces
    L. V. Koplitz, O. Dulub, U. Diebold
    J. Phys. Chem. B 107 (2003) 10583-10590
  24. Experimental Investigation of the Interaction of Water and Methanol with Anatase-TiO2(101)
    G. S. Herman, Z. Dohnalek, N. Ruzycki, U. Diebold
    J. Phys. Chem. B 107 (2003) 2788-2795
  25. Influence of subsurface, charged impurities on the adsorption of chlorine at TiO2(110)
    M. Batzill, E. L. D. Hebenstreit, W. Hebenstreit, U. Diebold
    Chem. Phys. Lett. 367 (2003) 319-323
  26. Structure and properties of TiO2 surfaces: a brief review
    U. Diebold
    Appl. Phys. A 76 (2003) 681-687
  27. One step towards bridging the materials gap: surface studies of TiO2 anatase
    U. Diebold, N. Ruzycki, G. S. Herman, A. Selloni
    Catal. Today 85 (2003) 93-100
  28. Surface morphologies of SnO2(110)
    M. Batzill, K. Katsiev, U. Diebold
    Surf. Sci. 529 (2003) 295-311
  29. Partial dissociation of water leads to stable superstructures on the surface of zinc oxide
    B. Meyer, D. Marx, O. Dulub, U. Diebold, M. Kunat, D. Langenberg, C. Wöll
    Angew. Chem. Int. Ed. 43 (2004) 6641-6645
  30. Surface Structure of TiO2(011)-(2 × 1)
    T. Beck, A. Klust, M. Batzill, U. Diebold, C. Di Valentin, A. Selloni
    Phys. Rev. Lett. 93 (2004) 036104
  31. Atomic-scale properties of low-index ZnO surfaces
    U. Diebold, L. V. Koplitz, O. Dulub
    Appl. Surf. Sci. 237 (2004) 336-342
  32. Tuning the oxide/organic interface: Benzene on SnO2(101)
    M. Batzill, K. Katsiev, U. Diebold
    Appl. Phys. Lett. 85 (2004) 5766-5768
  33. Surface oxygen chemistry of a gas-sensing material: SnO2(101)
    M. Batzill, A. M. Chaka, U. Diebold
    Europhys. Lett. 65 (2004) 61-67
  34. The surface and materials science of tin oxide
    M. Batzill, U. Diebold
    Prog. Surf. Sci. 79 (2005) 47-154
  35. Mixed dissociated/molecular monolayer of water on the TiO2(011)-(2x1) surface
    T. Beck, A. Klust, M. Batzill, U. Diebold, C. Di Valentin, A. Tilocca, A. Selloni
    Surf. Sci. 591 (2005) L267-L272
  36. Gas-phase-dependent properties of SnO2 (110), (100), and (101) single-crystal surfaces: Structure, composition, and electronic properties
    M. Batzill, K. Katsiev, J. Burst, U. Diebold, A. Chaka, B. Delley
    Phys. Rev. B 72 (2005) 165414
  37. Growth of Copper on Single Crystalline ZnO: Surface Study of a Model Catalyst
    O. Dulub, M. Batzill, U. Diebold
    Top. Catal. 36 (2005) 65-76
  38. Dispersed Au atoms, supported on TiO2(110)
    U. Diebold
    Surf. Sci. 578 (2005) 1-3
  39. Optimization of synthesis variables in the preparation of active sulfated zirconia catalysts
    M. Cutrufello, U. Diebold, R. Gonzalez
    Catal. Lett. 101 (2005) 5-13
  40. Adsorption of Water on Reconstructed Rutile TiO2(011)-(2×1): Ti=O Double Bonds and Surface Reactivity
    C. Di Valentin, A. Tilocca, A. Selloni, T. J. Beck, A. Klust, M. Batzill, Y. Losovyj, U. Diebold
    J. Am. Chem. Soc. 127 (2005) 9895-9903
  41. Observation of the dynamical change in a water monolayer adsorbed on a ZnO surface
    O. Dulub, B. Meyer, U. Diebold
    Phys. Rev. Lett. 95 (2005) 136101
  42. Pure and cobalt-doped SnO2(101) films grown by molecular beam epitaxy on Al2O3
    M. Batzill, J. M. Burst, U. Diebold
    Thin Solid Films 484 (2005) 132-139
  43. Tuning the chemical functionality of a gas sensitive material: Water adsorption on SnO2(101)
    M. Batzill, W. Bergermayer, I. Tanaka, U. Diebold
    Surf. Sci. 600 (2006) 29-32
  44. Enhanced tunneling magnetoresistance and high-spin polarization at room temperature in a polystyrene-coated Fe3O4 granular system
    W. Wang, M. Yu, M. Batzill, J. He, U. Diebold, J. Tang
    Phys. Rev. B 73 (2006) 134412
  45. Structure, defects, and impurities at the rutile TiO2(011)-(2x1) surface: A scanning tunneling microscopy study
    O. Dulub, C. D. Valentin, A. Selloni, U. Diebold
    Surf. Sci. 600 (2006) 4407-4417
  46. Characterizing solid state gas responses using surface charging in photoemission: water adsorption on SnO2(101)
    M. Batzill, U. Diebold
    J. Phys.: Condens. Matter 18 (2006) L129-L134
  47. Tuning surface properties of SnO2(101) by reduction
    M. Batzill, K. Katsiev, J. M. Burst, Y. Losovyj, W. Bergermayer, I. Tanaka, U. Diebold
    J. Phys. Chem. Sol. 67 (2006) 1923-1929
  48. Steps on anatase TiO2(101)
    X.-Q. Gong, A. Selloni, M. Batzill, U. Diebold
    Nature Mater. 5 (2006) 665-670
  49. Influence of Nitrogen Doping on the Defect Formation and Surface Properties of TiO2 Rutile and Anatase
    M. Batzill, E. Morales, U. Diebold
    Phys. Rev. Lett. 96 (2006) 026103
  50. Doping and functionalization of photoactive semiconducting metal oxides
    C. Di Valentin, U. Diebold, A. Selloni
    Chem. Phys. 339 (2007) vii-viii
  51. Surface studies of nitrogen implanted TiO2
    M. Batzill, E. H. Morales, U. Diebold
    Chem. Phys. 339 (2007) 36-43
  52. Electron-Induced Oxygen Desorption from the TiO2(011)-2×1 Surface Leads to Self-Organized Vacancies
    O. Dulub, M. Batzilln, S. Solovev, E. Loginova, A. Alchagirov, T.E. Madey, U. Diebold
    Science 317 (2007) 1052-1056
  53. Surface and Interface Properties of Metal-Organic Chemical Vapor Deposition Grown a-Plane MgxZn1-xO (0 <= x <= 0.3) Films
    G. Saraf, J. Zhong, O. Dulub, U. Diebold, T. Siegrist, Y. Lu
    J. Electron. Mater. 36 (2007) 446-451
  54. Growth of One-Dimensional Pd Nanowires on the Terraces of a Reduced SnO2(101) Surface
    K. Katsiev, M. Batzill, U. Diebold, A. Urban, B. Meyer
    Phys. Rev. Lett. 98 (2007) 186102
  55. Are the surfaces of CrO2 metallic?
    C.A. Ventrice, Jr., D.R. Borst, H. Geisler, J. van Ek, Y.B. Losovyj, P.S. Robbert, U. Diebold, J.A. Rodriguez, G.X. Miao, A. Gupta
    J. Phys.: Condens. Matter 19 (2007) 315207
  56. Surface studies of gas sensing metal oxides
    M. Batzill, U. Diebold
    Phys. Chem. Chem. Phys. 9 (2007) 2307-2318
  57. Decomposition of catechol and carbonaceous residues on TiO2(110): A model system for cleaning of extreme ultraviolet lithography optics
    P. Jacobson, S.-C. Li, C. Wang, U. Diebold
    J. Vac. Sci. Technol. B 26 (2008) 2236-2240
  58. Scanning tunneling microscopy study of a vicinal anatase TiO2 surface
    S.-C. Li, O. Dulub, U. Diebold
    J. Phys. Chem. C 112 (2008) 16166-16170
  59. Characterization of individual SnO2 nanobelts with STM
    K. Katsiev, A. Kolmakov, M. Fang, U. Diebold
    Surf. Sci. 602 (2008) L112-L114
  60. Defects and Pd growth on the reduced SnO2(100) surface
    K. Katsiev, M. Batzill, L.A. Boatner, U. Diebold
    Surf. Sci. 602 (2008) 1699-1704
  61. Small Au and Pt clusters at the anatase TiO2(101) surface: Behavior at terraces, steps, and surface oxygen vacancies
    X.-Q. Gong, A. Seloni, O. Dulub, P. Jacobson, U. Diebold
    J. Am. Chem. Soc. 130 (2008) 370-381
  62. Oxygen adsorption on Cu/ZnO(0001)-Zn
    P. Lazcano, M. Batzill, U. Diebold, P. Häberle
    Phys. Rev. B 77 (2008) 035435
  63. Surface structure of Sn-doped In2O3(111) thin films by STM
    E.H. Morales, Y. He, M. Vinnichenko, B. Delley, U. Diebold
    New J. Phys. 10 (2008) 125030
  64. Wiggling its way out of surface polarity: Fe3O4(100) (A Perspectives on the article: "A combined DFT/LEED approach for complex oxide surface structure determination: Fe3O4(001)" by R. Pentcheva, W. Moritz, J. Rundgren, S. Frank, D. Schrupp, M. Scheffler)
    U. Diebold
    Surf. Sci. 602 (2008) 1297-1298
  65. Local ordering and electronic signatures of submonolayer water on anatase TiO2(101)
    Y. He, A. Tilocca, O. Dulub, A. Selloni, U. Diebold
    Nature Materials 8 (2009) 585-589
  66. Nucleation and growth of 1D water clusters on rutile TiO2 (011)-2×1
    Y. He, W.-K. Li, X.-Q. Gong, O. Dulub, A. Selloni, U. Diebold
    J. Phys. Chem. C 113 (2009) 10329-10332
  67. Evidence for the predominance of subsurface defects on reduced anatase TiO2(101)
    Y. He, O. Dulub, H. Cheng, A. Selloni, U. Diebold
    Phys. Rev. Lett. 102 (2009) 106105
  68. Correlation between bonding geometry and band gap states at organic-inorganic interfaces: Catechol on rutile TiO2(110)
    S.-C. Li, J.-G. Wang, P. Jacobsen, X.-Q. Gong, A. Selloni, U. Diebold
    J. Am. Chem. Soc. 131 (2009) 980-984
  69. The structure of the polar Sn-doped indium oxide (001) surface
    E.H. Morales, U. Diebold
    Appl. Phys. Lett. 95 (2009) 253105
  70. Direction-dependent intermolecular interactions: catechol on TiO2(110)-1×1
    S.-C. Li, U. Diebold
    Proc. SPIE 7396 (2009) 73960P
  71. Water-soluble nanorods self-assembled via pristine C60 and porphyrin moieties
    M. Fathalla, S.-C. Li, U. Diebold, A. Alb, J. Jayawickramarajah
    Chem. Commun. 2009, 4209-4211
  72. The 2 × 1 reconstruction of the rutile TiO2(011) surface: A combined density functional theory, X-ray diffraction, and scanning tunneling microscopy study
    X.-Q. Gong, N. Khorshidi, A. Sierle, V. Vonk, C. Ellinger, H. Dosch, H. Cheng, A. Selloni, Y. He, O. Dulub, U. Diebold
    Surf. Sci. 603 (2009) 138-144
  73. Oxide surface science
    U. Diebold1, S-C. Li1, M. Schmid2
    Annu. Rev. Phys. Chem. 61 (2010) 129-148
  74. Oxide surfaces: Surface science goes inorganic
    U. Diebold
    Nature Mater. 9 (2010) 185
  75. Hydrogen bonding controls the dynamics of catechol adsorbed on a TiO2(110) surface
    S-C. Li1, L.-N. Chu2, X.-Q. Gong2, U. Diebold1,3
    Science 328 (2010) 882-884
  76. Observation and destruction of an elusive adsorbate with STM: O2/TiO2(110)
    P. Scheiber, A. Riss, M. Schmid, P. Varga, U. Diebold
    Phys. Rev. Lett. 105 (2010) 216101
  77. Semiconductor-half metal transition at the Fe3O4(001) surface upon hydrogen adsorption
    G.S. Parkinson1,2, N. Mulakaluri3,4, Y. Losovyj5, P. Jacobson1,2, R. Pentcheva3, and U. Diebold1,2
    Phys. Rev. B 82 (2010) 125413
  78. Reactivity of TiO2 Rutile and Anatase Surfaces toward Nitroaromatics
    S.-C. Li, U. Diebold
    J. Am. Chem. Soc. 132 (2010) 64-66
  79. Influence of Subsurface Defects on the Surface Reactivity of TiO2: Water on Anatase (101)
    U. Aschauer, Y. He, H. Cheng, S.-C. Li, U. Diebold, A. Selloni
    J. Phys. Chem. C 114 (2010) 1278-1284
  80. Preparation of a pristine TiO2 anatase (101) surface by cleaving
    O. Dulub, U. Diebold
    J. Phys.: Condens. Matter 22 (2010) 084014
  81. Photocatalysts: Closing the gap
    U. Diebold
    Nature Chem. 3 (2011) 271-272
  82. A metastable Fe(A) termination at the Fe3O4(001) surface
    G.S. Parkinson, Z. Novotný, P. Jacobson, M. Schmid, U. Diebold
    Surf. Sci. 605 (2011) L42-L45
  83. Photoemission study of azobenzene and aniline adsorbed on TiO2 anatase (101) and rutile (110) surfaces
    S.-C. Li1, Y. Losovyj2, V.K. Paliwal1,3, U. Diebold1,4
    J. Phys. Chem. C 115 (2011) 10173-10179
  84. Growth and organization of an organic molecular monolayer on TiO2: catechol on anatase (101)
    L.-M. Liu1, S.-C. Li2, H. Cheng1, U. Diebold2,3, A. Selloni1
    J. Am. Chem. Soc. 133 (2011) 7816-7823
  85. Room temperature water splitting at the surface of magnetite
    G.S. Parkinson, Z. Novotný, P. Jacobson, M. Schmid, U. Diebold
    J. Am. Chem. Soc. 133 (2011) 12650-12655
  86. Adsorption-site-dependent electronic structure of catechol on the anatase TiO2(101) surface
    S.-C. Li1, Y. Losovyj2, U. Diebold1,3
    Langmuir 27 (2011) 8600-8604
  87. An in vitro controlled release study of valproic acid encapsulated in a titania ceramic matrix
    M.J. Uddin1,2,3, D. Mondal4, C.A. Morris3, T. Lopez1,5,6, U. Diebold2 and R.D. Gonzalez1
    Appl. Surf. Sci. 257 (2011) 7920-7927
  88. Disorder and Defect Healing in Graphene on Ni(111)
    P. Jacobson, B. Stöger, A. Garhofer, G. S. Parkinson, M. Schmid, R. Caudillo, F. Mittendorfer, J. Redinger, U. Diebold
    J. Phys. Chem. Lett. 3 (2012) 136-139
  89. Trapping Nitric Oxide by Surface Hydroxyls on Rutile TiO2(110)
    S.-C. Li, P. Jacobson, S.-L. Zhao, X.-Q. Gong, U. Diebold
    J. Phys. Chem. C 116 (2012) 1887-1891
  90. Bulk and surface characterization of In2O3(001) single crystals
    D. R. Hagleitner1, M. Menhart1, P. Jacobson1, S. Blomberg2, K. Schulte2, E. Lundgren2, M. Kubicek3 J. Fleig3, F. Kubel3, C. Puls3, Andreas Limbeck3, H. Hutter3, L. A. Boatner4, M. Schmid1, U. Diebold1
    Phys. Rev. B 85 (2012) 115441
  91. Nickel Carbide as a Source of Grain Rotation in Epitaxial Graphene
    P. Jacobson, B. Stöger, A. Garhofer, G. S. Parkinson, M. Schmid, R. Caudillo, F. Mittendorfer, J. Redinger, U. Diebold
    ACS Nano 6 (2012) 3564-3572
  92. Ordered array of single adatoms with remarkable thermal stability: Au/Fe3O4(001)
    Z. Novotny, G. Argentero, Z. Wang, M. Schmid, U. Diebold, G. S. Parkinson
    Phys. Rev. Lett. 108 (2012) 216103
  93. Antiphase domain boundaries at the Fe3O4(001) surface
    G. S. Parkinson, T. A. Manz, Z. Novotný, P. T. Sprunger, R. L. Kurtz, M. Schmid, D. S. Sholl, U. Diebold
    Phys. Rev. B 85 (2012) 195450
  94. Tailoring the Interface Properties of Magnetite for Spintronics
    G. S. Parkinson, U. Diebold, J. Tang, L. Malkinski
    in: Advanced Magnetic Materials; ed. L. Malkinski. InTech (Rijeka, 2012), pp. 61-88
  95. Evidence for s-d Hybridization in Au38 Clusters
    Y. B. Losovyj, S.-C. Li, N. Lozova, K. Katsiev, D. Stellwagen, U. Diebold, L. Kong, C.S.S.R. Kumar
    J. Phys. Chem. C 116 (2012) 5857-5861
  96. Pt3Zr(0001): A substrate for growing well-ordered ultrathin zirconia films by oxidation
    M. Antlanger, W. Mayr-Schmölzer, J. Pavelec, F. Mittendorfer, J. Redinger, P. Varga, U. Diebold, M. Schmid
    Phys. Rev. B 86 (2012) 035451
  97. (Sub)surface mobility of oxygen vacancies at the TiO2 anatase (101) surface
    P. Scheiber, M. Fidler, O. Dulub, M. Schmid, U. Diebold, W. Hou, U. Aschauer, A. Selloni
    Phys. Rev. Lett. 109 (2012) 136103
  98. Imaging physical phenomena with local probes: From electrons to photons
    D. A. Bonnell, D. N. Basov, M. Bode, U. Diebold, S. V. Kalinin, V, Madhavan, L. Novotny, M. Salmeron, U. D. Schwarz, P. S. Weiss
    Rev. Mod. Phys. 84 (2012) 1343-1381
  99. Tailoring the photocatalytic reaction rate of a nanostructured TiO2 matrix using additional gas phase oxygen
    M.J. Uddin, M.M. Alam, M.A. Islam, S.R. Snigda, S. Das, M.M. Rahman, M.N. Uddin, C.A. Morris, R.D. Gonzalez, U. Diebold, T.J. Dickens, O.I. Okoli
    Int. Nano Lett. 3 (2013) 16
  100. Probing the surface phase diagram of Fe3O4(001) towards the Fe rich limit: Evidence for progressive reduction of the surface
    Z. Novotný, M. Mulakaluri, Z. Edes, M. Schmid, R. Pentcheva, U. Diebold, G. S. Parkinson
    Phys. Rev. B 87 (2013) 195410
  101. Carbon monoxide-induced adatom sintering in a Pd-Fe3O4 model catalyst
    G.S. Parkinson, Z. Novotny, G. Argentero, M. Schmid, J. Pavelec, R. Kosak, P. Blaha, U. Diebold
    Nature Mater. 12 (2013) 724-728
  102. Strain-induced defect superstructure on the SrTiO3(110) surface
    Z. Wang, F. Li, S. Meng, J. Zhang, E. W. Plummer, U. Diebold, J. Guo
    Phys. Rev. Lett. 111 (2013) 056101
  103. Reaction of O2 with subsurface oxygen vacancies on TiO2 anatase (101)
    M. Setvin, U. Aschauer, P. Scheiber, Y.-F. Li, W. Hou, M. Schmid, A. Selloni, U. Diebold
    Science 341 (2013) 988-991
  104. Real-space imaging of the Verwey transition at the (100) surface of magnetite
    J. de la Figuera, Z. Novotny, M. Setvin, T. Liu, Z. Mao, G. Chen, A. T. N'Diaye, M. Schmid, U. Diebold, A. K. Schmid, G. S. Parkinson
    Phys. Rev. B 88 (2013) 161410(R)
  105. Water adsorption at the tetrahedral titania surface layer of SrTiO3(110)-(4 × 1)
    Z. Wang, X. Hao, S. Gerhold, Z. Novotny, C. Franchini, E. McDermott, K. Schulte, M. Schmid, U. Diebold
    J. Phys. Chem. C 117 (2013) 26060-26069
  106. Stoichiometry-driven switching between surface reconstructions on SrTiO3(001)
    S. Gerhold, Z. Wang, M. Schmid, U. Diebold
    Surf. Sci. 621 (2014) L1-L4
  107. Anisotropic two-dimensional electron gas at SrTiO3(110)
    Z. Wang, Z. Zhong, X. Hao, S. Gerhold, B. Stöger, M. Schmid, J. Sánchez-Barriga, A. Varykhalov, C. Franchini, K. Held, U. Diebold
    Proc. Natl. Acad. Sci. USA 111 (2014) 3933-3937
  108. Charge trapping at the step edges of TiO2 anatase (101)
    M. Setvin, X. Hao, B. Daniel, J. Pavelec, Z. Novotny, G. S. Parkinson, M. Schmid, G. Kresse, C. Franchini, U. Diebold
    Angew. Chem. Int. Ed. 53 (2014) 4714-4716
  109. Surface preparation of TiO2 anatase (101): Pitfalls and how to avoid them
    M. Setvin, B. Daniel, V. Mansfeldova, L. Kavan, P. Scheiber, M. Fidler, M. Schmid, U. Diebold
    Surf. Sci. 626 (2014) 61-67
  110. The growth of ultrathin zirconia films on Pd3Zr(0001)
    J. I. J. Choi, W. Mayr-Schmölzer, F. Mittendorfer, J. Redinger, U. Diebold, M. Schmid
    J. Phys.: Condens. Matter 26 (2014) 225003
  111. Cluster nucleation and growth from a highly supersaturated adatom phase: silver on magnetite
    R. Bliem, R. Kosak, L. Perneczky, Z. Novotny, O. Gamba, D. Fobes, Z. Mao, M. Schmid, P. Blaha , U. Diebold, G. S. Parkinson
    ACS Nano 8 (2014) 7531-7537
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  116. Synthesis, characterization, and computation of catalysts at the Center for Atomic-Level Catalyst Design
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    J. Phys. Chem. C 118 (2014) 20043-20069
  117. High Chemical Activity of a Perovskite Surface: Reaction of CO with Sr3Ru2O7
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    Phys. Rev. Lett. 113 (2014) 116101
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    J. Phys. Chem C 118 (2014) 19904-19909
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    Phys. Chem. Chem. Phys. 16 (2014) 21524-21530
  120. Point defects at cleaved Srn+1RunO3n+1(001) surfaces
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    Phys. Rev. B 90 (2014) 165438
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    Science 346 (2014) 1215-1218
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    Phys. Rev. B 91 (2015) 085204
  123. In situ scanning tunneling microscopy study of Ca-modified rutile TiO2(110) in bulk water
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    Beilstein J. Nanotechnol. 6 (2015) 438-443
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    Phys. Rev. B 91 (2015) 195403
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    Phys. Rev. B 92 (2015) 075440
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    Adv. Mater. Interf. 2 (2015) 1500246
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    J. Phys. Chem. C 119 (2015) 20459-20465
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    J. Phys. Chem. C 119 (2015) 20481-20487
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    J. Phys. Chem. C 119 (2015) 21044-21052
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    Angew. Chem. Int. Ed. 54 (2015) 13999-14002
  131. NO adsorption and diffusion on hydroxylated rutile TiO2(110)
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    Phys. Chem. Chem. Phys. 17 (2015) 26594-26598
  132. Adsorption on Metal Oxide Surfaces
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  133. Adsorption of water at the SrO surface of ruthenates
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    Surf. Sci. 651 (2016) 76-83
  137. Transition from reconstruction toward thin film on the (110) surface of strontium titanate
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  138. Metal adatoms and clusters on ultrathin zirconia films
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    J. Phys. Chem. C 120 (2016) 9920-9932
  139. Atomic structure and stability of magnetite Fe3O4(001): An X-ray view
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    J. Am. Chem. Soc. 138 (2016) 9565-9571
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    Proc. Natl. Acad. Sci. USA 113 (2016) 8921-8926
  142. Tailoring the nature and strength of electron-phonon interactions in the SrTiO3(001) 2D electron liquid
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  143. Well-ordered In adatoms at the In2O3(111) surface created by Fe deposition
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    Chem. Soc. Rev. 46 (2017) 1772-1784
  146. Electron transfer between anatase TiO2 and an O2 molecule directly observed by atomic force microscopy
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  147. Formaldehyde adsorption on the anatase TiO2(101) surface: Experimental and theoretical investigation
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  150. Polaron-driven surface reconstructions
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    Phys. Rev. X 7 (2017) 031053
  151. Self-limiting adsorption of WO3 oligomers on oxide substrates in solution
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    ACS Catalysis 7 (2017) 7081-7091
  153. Construction and evaluation of an ultrahigh-vacuum-compatible sputter deposition source
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    Rev. Sci. Instrum. 88 (2017) 103904
  154. Resolving the Structure of a Well-Ordered Hydroxyl Overlayer on In2O3(111): Nanomanipulation and Theory
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    ACS Nano 11 (2017) 11531–11541
  155. Surface Structure of TiO2 Rutile (011) Exposed to Liquid Water
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    J. Phys. Chem. C 121 (2017) 26424-26431
  156. Perspective: A controversial benchmark system for water-oxide interfaces: H2O/TiO2(110)
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    J. Chem. Phys. 147 (2017) 040901
  157. Atomic-scale structure of the hematite α-Fe2O3(1 -1 0 2) "r-cut" surface
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    J. Phys. Chem. C 122 (2018) 1657-1669
  158. Probing the geometry of copper and silver adatoms on magnetite: quantitative experiment versus theory
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    Nanoscale 10 (2018) 2226-2230
  159. Adsorption of CO on the Fe3O4(001) surface
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  160. Polarity compensation mechanisms on the perovskite surface KTaO3(001)
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    Science 359 (2018) 572-575
  161. Sexiphenyl on Cu(100): nc-AFM tip functionalization and identification
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    Surf. Sci. 678 (2018) 124-127
  162. A full monolayer of superoxide: oxygen activation on the unmodified Ca3Ru2O7(001) surface
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    J. Mater. Chem. A 6 (2018) 5703-5713
  163. Prototypical Organic-Oxide Interface: Intramolecular Resolution of Sexiphenyl on In2O3(111)
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    ACS Appl. Mater. Interfaces 10 (2018) 14175-14182
  164. Water agglomerates on Fe3O4(001)
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    PNAS 115 (2018) E5642-E5650
  165. Formation and dynamics of small polarons on the rutile TiO2(110) surface
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    Phys. Rev. B 98 (2018) 045306
  166. High-affinity adsorption leads to molecularly ordered interfaces on TiO2 in air and solution
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    Science 361 (2018) 786-789
  167. Apparatus for dosing liquid water in ultrahigh vacuum
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    Rev. Sci. Instrum. 89 (2018) 083906
  168. Water adsorption at zirconia: from the ZrO2(111)/Pt3Zr(0001) model system to powder samples
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    J. Mater. Chem. A 6 (2018) 17587-17601
  169. Influence of surface atomic structure demonstrated on oxygen incorporation mechanism at a model perovskite oxide
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  170. Adsorption of CO on the Ca3Ru2O7(001) surface
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  171. Surface structures of ZrO2 films on Rh(111): From two layers to bulk termination
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    Surf. Sci. 679 (2019) 180-187
  172. Interplay between adsorbates and polarons: CO on rutile TiO2(110)
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  173. Stability and catalytic performance of reconstructed Fe3O4(001) and Fe3O4(110) surfaces during oxygen evolution reaction
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    J. Phys. Chem. C 123 (2019) 8304-8311
  174. Small Polarons in Transition Metal Oxides
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  175. Incipient ferroelectricity: A route towards bulk-terminated SrTiO3
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    Phys. Rev. Materials 3 (2019) 034407
  176. Pushing the detection of cation nonstoichiometry to the limit
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  177. Using photoelectron spectroscopy to observe oxygen spillover to zirconia
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    J. Phys. Chem. C 123 (2019) 15038-15045
  179. Self-limited growth of an oxyhydroxide phase at the Fe3O4(001) surface in liquid and ambient pressure water
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    J. Chem. Phys. 151 (2019) 154702
  180. Local structure and coordination define adsorption in a model Ir1/Fe3O4 single-atom catalyst
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    Angew. Chem. Int. Ed. 58 (2019) 13961-13968
  181. Growth of In2O3(111) thin films with optimized surfaces
    G. Franceschi, M. Wagner, J. Hofinger, T. Krajňák, M. Schmid, U. Diebold, M. Riva
    Phys. Rev. Materials 3 (2019) 103403
  182. Epitaxial growth of complex oxide films: Role of surface reconstructions
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    Phys. Rev. Research 1 (2019) 033059
  183. Substoichiometric ultrathin zirconia films cause strong metal-support interaction
    P. Lackner, J. I. J. Choi, U. Diebold, M. Schmid
    J. Mater. Chem. A 7 (2019) 24837-24846
  184. Partially dissociated water dimers at the water-hematite interface
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    ACS Energy Lett. 4 (2019) 390-396
  185. Defect chemistry of Eu dopants in NaI scintillators studied by atomically resolved force microscopy
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  186. Highlights of the Science and Life of Peter Varga (1946-2018)
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    e-J. Surf. Sci. Nanotech. 18 (2020) 8-11
  187. Few-monolayer yttria-doped zirconia films: Segregation and phase stabilization
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    J. Chem. Phys. 152 (2020) 064709
  188. Adsorbate-induced structural evolution changes the mechanism of CO oxidation on a Rh/Fe3O4 model catalyst
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  189. A model system for photocatalysis: Ti-Doped α-Fe2O3(1 -1 0 2) single-crystalline films
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    Chem. Mater. 32 (2020) 3753-3764
  190. Resolving the adsorption of molecular O2 on the rutile TiO2(110) surface by noncontact atomic force microscopy
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  191. Movable holder for a quartz crystal microbalance for exact growth rates in pulsed laser deposition
    G. Franceschi, M. Schmid, U. Diebold, M. Riva
    Rev. Sci. Instrum. 91 (2020) 065003
  192. Fast low-noise transimpedance amplifier for scanning tunneling microscopy and beyond
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  193. Oxide chemistry and catalysis
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    J. Chem. Phys. 153 (2020) 050401
  194. Atomic-scale studies of Fe3O4(001) and TiO2(110) surfaces following immersion in CO2-acidified water
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  195. Atomically resolved surface phases of La0.8Sr0.2MnO3(110) thin films
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    J. Mater. Chem. A 8 (2020) 22947-22961
  196. IrO2 surface complexions identified through machine learning and surface investigations
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  197. Electrochemical stability of the reconstructed Fe3O4(001) surface
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    Angew. Chem. Int. Ed. 59 (2020) 21904-21908
  198. Direct assessment of the acidity of individual surface hydroxyls
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    Nature 592 (2021) 722-725
  199. Unraveling CO adsorption on model single-atom catalysts
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    Science 371 (2021) 375-379
  200. Polarons in materials
    C. Franchini, M. Reticcioli, M. Setvin, U. Diebold
    Nat. Rev. Mater. 6 (2021) 560-586
  201. Ni-modified Fe3O4(001) surface as a simple model system for understanding the oxygen evolution reaction
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    Electrochim. Acta 389 (2021) 138638
  202. Surface reduction state determines stabilization and incorporation of Rh on α-Fe2O3(1 -1 0 2)
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    Adv. Mater. Interfaces 8 (2021) 2001908
  203. Quest for a pristine unreconstructed SrTiO3(001) surface: An atomically resolved study via noncontact atomic force microscopy
    I. Sokolović, G. Franceschi, Z. Wang, J. Xu, J. Pavelec, M. Riva, M. Schmid, U. Diebold, M. Setvín
    Phys. Rev. B 103 (2021) L241406
  204. Two-dimensional surface phase diagram of a multicomponent perovskite oxide: La0.8Sr0.2MnO3(110)
    G. Franceschi, M. Schmid, U. Diebold, M. Riva Phys. Rev. Materials 5 (2021) L092401
  205. Oxygen-rich tetrahedral surface phase on high-temperature rutile VO2(110)T single crystals
    M. Wagner, J. Planer, B. S. J. Heller, J. Langer, A. Limbeck, L. A. Boatner, H.-P. Steinrück, J. Redinger, F. Maier, F. Mittendorfer, M. Schmid, U. Diebold
    Phys. Rev. Materials 5 (2021) 125001
  206. Rapid oxygen exchange between hematite and water vapor
    Z. Jakub, M. Meier, F. Kraushofer, J. Balajka, J. Pavelec, M. Schmid, C. Franchini, U. Diebold, G. S. Parkinson
    Nat. Commun. 12 (2021) 6488
  207. Single Rh adatoms stabilized on α-Fe2O3(1 -1 0 2) by coadsorbed water
    F. Kraushofer, L. Haager, M. Eder, A. Rafsanjani-Abbasi, Z. Jakub, G. Franceschi, M. Riva, M. Meier, M. Schmid, U. Diebold, G. S. Parkinson
    ACS Energy Lett. 7 (2022) 375-380
  208. Reconstruction changes drive surface diffusion and determine the flatness of oxide surfaces
    G. Franceschi, M. Schmid, U. Diebold, M. Riva
    J. Vac. Sci. Technol. A 40 (2022) 023206
  209. CO oxidation by Pt2/Fe3O4: Metastable dimer and support configurations facilitate lattice oxygen extraction
    M. Meier, J. Hulva, Z. Jakub, F. Kraushofer, M. Bobić, R. Bliem, M. Setvin, M. Schmid, U. Diebold, C. Franchini, G. S. Parkinson
    Sci. Adv. 8 (2022) eabn4580
  210. Why and how Savitzky-Golay filters should be replaced
    M. Schmid, D. Rath, U. Diebold
    ACS Meas. Sci. Au 2 (2022) 185-196
  211. Adsorption configurations of Co-phthalocyanine on In2O3(111)
    M. Wagner, F. Calcinelli, A. Jeindl, M. Schmid, O. T. Hofmann, U. Diebold
    Surf. Sci. 722 (2022) 122065
  212. Competing electronic states emerging on polar surfaces
    M. Reticcioli, Z. Wang, M. Schmid, D. Wrana, L. A. Boatner, U. Diebold, M. Setvin, C. Franchini
    Nat. Commun. 13 (2022) 4311
  213. Structure of an ultrathin oxide on Pt3Sn(111) solved by machine learning enhanced global optimization
    L. R. Merte, M. K. Bisbo, I. Sokolović, M. Setvín, B. Hagman, M. Shipilin, M. Schmid, U. Diebold, E. Lundgren, B. Hammer
    Angew. Chem. Int. Ed. 61 (2022) e202204244
  214. Surface chemistry on a polarizable surface: Coupling of CO with KTaO3(001)
    Z. Wang, M. Reticcioli, Z. Jakub, I. Sokolović, M. Meier, L. A. Boatner, M. Schmid, G. S. Parkinson, U. Diebold, C. Franchini, M. Setvín
    Sci. Adv. 8 (2022) eabq1433
  215. Modeling polarons in density functional theory: Lessons learned from TiO2
    M. Reticcioli, U. Diebold, C. Franchini
    J. Phys.: Condens. Matter 34 (2022) 204006
  216. Machine learning for exploring small polaron configurational space
    V. C. Birschitzky, F. Ellinger, U. Diebold, M. Reticcioli, C. Franchini
    npj Comput. Mater. 8 (2022) 1–9
  217. Water structures reveal local hydrophobicity on the In2O3(111) surface
    H. Chen, M. A. Blatnik, C. L. Ritterhoff, I. Sokolović, F. Mirabella, G. Franceschi, M. Riva, M. Schmid, J. Čechal, B. Meyer, U. Diebold, M. Wagner
    ACS Nano 16 (2022) 21163-21173
  218. Resolving the intrinsic short-range ordering of K+ ions on cleaved muscovite mica
    G. Franceschi, P. Kocán, A. Conti, S. Brandstetter, J. Balajka, I. Sokolović, M. Valtiner, F. Mittendorfer, M. Schmid, M. Setvín, U. Diebold
    Nat. Commun. 14 (2023) 208
  219. Analysis of temperature-programmed desorption via equilibrium thermodynamics
    M. Schmid, G. S. Parkinson, U. Diebold
    ACS Phys. Chem. Au 3 (2023) 44-62
  220. Automated real-space lattice extraction for atomic force microscopy images
    M. Corrias, L. Papa, I. Sokolović, V. Birschitzky, A. Gorfer, M. Setvin, M. Schmid, U. Diebold, M. Reticcioli, C. Franchini
    Mach. Learn.: Sci. Technol. 4 (2023) 015015
  221. A study of Pt, Rh, Ni and Ir dispersion on anatase TiO2(101) and the role of water
    L. Puntscher, K. Daninger, M. Schmid, U. Diebold, G. S. Parkinson
    Electrochim. Acta 449 (2023) 142190
  222. Oxygen-terminated (1 × 1) reconstruction of reduced magnetite Fe3O4(111)
    F. Kraushofer, M. Meier, Z. Jakub, J. Hütner, J. Balajka, J. Hulva, M. Schmid, C. Franchini, U. Diebold, G. S. Parkinson
    J. Phys. Chem. Lett. 14 (2023) 3258-3265
  223. Oxide Surfaces
    G. Franceschi, U. Diebold
    in: Encyclopedia of Materials: Electronics, ed. A. S. M. A. Haseeb (Academic Press, Oxford, 2023), pp. 501-511
  224. Effect of Different In2O3(111) Surface Terminations on CO2 Adsorption
    S. M. Gericke, M. M. Kauppinen, M. Wagner, M. Riva, G. Franceschi, A. Posada-Borbón, L. Rämisch, S. Pfaff, E. Rheinfrank, A. M. Imre, A. B. Preobrajenski, S. Appelfeller, S. Blomberg, L. R. Merte, J. Zetterberg, U. Diebold, H. Grönbeck, E. Lundgren
    ACS Appl. Mater. Interfaces 15 (2023) 45367-45377
  225. Formation and stability of Fe-rich terminations of the Fe3O4(001) surface
    O. Gamba, M. Eder, M. Poglitsch, J. Pavelec, P. Sombut, M. Meier, U. Diebold, M. Schmid, G. S. Parkinson
    Mater. Res. Express 10 (2023) 116517
  226. Evolution of the surface atomic structure of multielement oxide films: curse or blessing?
    G. Franceschi, R. Heller, M. Schmid, U. Diebold, M. Riva
    Nanoscale Adv. 5 (2023) 7009-7017
  227. Hematite α-Fe2O3(0001) in top and side view: Resolving long-standing controversies about its surface structure
    J. Redondo, J. Michalička, F. Kraushofer, G. Franceschi, B. Šmid, N. Kumar, O. Man, M. Blatnik, D. Wrana, B. Mallada, M. Švec, G. S. Parkinson, M. Setvin, M. Riva, U. Diebold, J. Čechal
    Adv. Mater. Interfaces 10 (2023) 2300602
  228. A multitechnique study of C2H4 adsorption on Fe3O4(001)
    L. Puntscher, P. Sombut, C. Wang, M. Ulreich, J. Pavelec, A. Rafsanjani-Abbasi, M. Meier, A. Lagin, M. Setvin, U. Diebold, C. Franchini, M. Schmid, G. S. Parkinson
    J. Phys. Chem. C 127 (2023) 18378-18388
  229. How water binds to microcline feldspar (001)
    G. Franceschi, A. Conti, L. Lezuo, R. Abart, F. Mittendorfer, M. Schmid, U. Diebold
    J. Phys. Chem. Lett. 15 (2024) 15-22
  230. Atomic structure of oxide surfaces in aqueous environment
    G. Franceschi, U. Diebold, J. Balajka
    Encyclopedia of Solid-Liquid Interfaces, edited by K. Wandelt and G. Bussetti (Elsevier, Oxford 2024) pp. 200-209
  231. Interaction of surface cations of cleaved mica with water in vapor and liquid forms
    G. Franceschi, S. Brandstetter, J. Balajka, I. Sokolović, J. Pavelec, M. Setvín, M. Schmid, U. Diebold
    Faraday Discuss. 249 (2024) 84-97
  232. CO-induced dimer decay responsible for gem-dicarbonyl formation on a model single-atom catalyst
    C. Wang, P. Sombut, L. Puntscher, Z. Jakub, M. Meier, J. Pavelec, R. Bliem, M. Schmid, U. Diebold, C. Franchini, G. S. Parkinson
    Angew. Chem. Int. Ed. 63 (2024) e202317347
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