Greg Cabailh – Publications

1. Competitive Formation of Ultra-thin Alumina Films at the Fe_0.85Al_0.15(110) Surface. N. Alyabyeva, S. Chenot, P. David, G. Cabailh, J. Jupille, A. Koltsov, R. Lazzari. Journal of Physical Chemistry C, 2022, 126, 45, 19549–19558.
2. Core level shifts as indicators of Cr chemistry on hydroxylated α-Al₂O₃(0001): a combined photoemission and first-principles study. M. Messaykeh, S. Chenot, P. David, G. Cabailh, J. Jupille, A. Koltsov, R. Lazzari. Physical Chemistry Chemical Physics, 2021, 23 (38), 21852-21862.
3. An In Situ and Real Time Plasmonic Approach of Seed/Adhesion Layers: Chromium Buffer Effect at the Zinc/Alumina Interface. M. Messaykeh, S. Chenot, P. David, G. Cabailh, J. Jupille, A. Koltsov, R. Lazzari. Crystal Growth & Design, 2021, 21 (6), 3528-3539.
4. Fe_0.85Al_0.15The Oxide at the Al-rich(110) surface. Z. Dai, N. Alyabyeva, M. van den Bossche, P. Borghetti, S. Chenot, P. David, A. Koltsov, G. Renaud, J. Jupille, G. Cabailh, C. Noguera, J. Goniakowski, R. Lazzari. Physical Review Materials, 2020, 4 (7), 074409.
5. Near- to Long-Wave-Infrared Mercury Chalcogenide Nanocrystals from Liquid Mercury. N. Goubet, M. Thomas, C. Greboval, A. Chu, J.L. Qu, P. Rastogi, S.S. Chee, M. Goyal, Y.M. Zhang, X.Z. Xu, G. Cabailh, S. Ithurria, E. Lhuillier. Journal of Physical Chemistry C 124 (15), 2020, 8423-8430.
6. Al-rich Fe_0.85Al_0.15(100), (110) and (111) surface structures. Z. Dai, N. Alyabyeva, P. Borghetti, S. Chenot, P. David, A. Koltsov, G. Renaud, J. Jupille, G. Cabailh, R. Lazzari. Applied Surface Science 509, 2020, 145312.
7. Chromium Adsorption Reveals a Persistent Hydroxylation of Vacuum-Annealed α-Al₂O₃ (0001). M. Messaykeh, J. Goniakowski, G. Cabailh, J. Jupille, R. Lazzari, P. Lagarde, N. Trcera. Journal of Physical Chemistry C 123 (48), 2019, 29245-29254.
8. Adsorption of a chiral modifier on an oxide surface: Chemical nature of tartaric acid on rutile TiO₂(110). E. Meriggio, R. Lazzari, S. Chenot, P. David, C. Methivier, X. Carrier, G. Cabailh, V. Humblot. Applied Surface Science 493, 2019, 1134-1141.
9. Fe_0.85Al_0.15Aluminium segregation profiles in the (110), (100) and (111) surface regions of the random body-centred cubic alloy. Z. Dai, P. Borghetti, S. Chenot, P. David, J. Jupille, G. Cabailh, J. Goniakowski, R. Lazzari. Applied Surface Science 492, 2019, 886-895.
10. Chemical nature and thermal decomposition behavior of tartaric acid multilayers on rutile TiO₂(110). E. Meriggio, R. Lazzari, C. Methivier, P. David, S. Chenot, X. Carrier, G. Cabailh, V. Humblot. Journal Of Vacuum Science & Technology B 37 (5), 2019, 051803.
11. Water-Induced Reversal of the TiO₂(011)-(2×1) Surface Reconstruction: Observed with in Situ Surface X-ray Diffraction. H. Hussain, M.H.M. Ahmed, X. Torrelles, D.C. Grinter, G. Cabailh, O. Bikondoa, C. Nicklin, U. Aschauer, R. Lindsay, G. Thornton. Journal of Physical Chemistry C 123, 2019, 13545-13550.
12. Understanding nanoscale effects in oxide/metal heteroepitaxy.
    G. Cabailh, J. Goniakowski, C. Noguera, J. Jupille, R. Lazzari, J. Li, P. Lagarde, N. Trcera. Physical Review Materials 3, 2019, 046001.
13. Structure of a Superhydrophilic Surface: Wet Chemically Prepared Rutile TiO₂(110)(1×1). J.P.W. Treacy, H. Hussain, X. Torrelles, G. Cabailh, O. Bikondoa, C. Nicklin, G. Thorn- ton, R. Lindsay. Journal of Physical Chemistry C, 123 (13), 2019, 8463-8468.
14. Transport in ITO Nanocrystals with Short- to Long-Wave Infrared Absorption for Heavy-Metal-Free Infrared Photodetection. J.L. Qu, C. Livache, B. Martinez, C. Greboval, A. Chu, E. Meriggio, J. Ramade, H. Cruguel, X.Z. Xu, A. Proust, F. Volatron, G. Cabailh, N. Goubet, E. Lhuillier. ACS Applied Nano Materials 2 (3), 2019, 1621-1630.
15. Polyoxometalate as Control Agent for the Doping in HgSe Self-Doped Nanocrystals. B. Martinez, C. Livache, E. Merigio, X.Z. Xu, H. Cruguel, E. Lacaze, A. Proust, S. Ithurria, M.G. Silly, G. Cabailh, F. Volatron, E. Lhuillier. Journal of Physical Chemistry C 122 (46), 2018, 26680-26685.
16. Band alignment at Ag/ZnO(0001) interfaces: A combined soft and hard x-ray photoe- mission study.E. Chernysheva, W. Srour, B. Philippe, B. Baris, S. Chenot, R.F. Duarte, M. Gorgoi, H. Cruguel, H. Rensmo, H. Montigaud, J. Jupille, G. Cabailh, S. Grachev, R. Lazzari. Physical Review B 97 (23), 2018, 235430.
17. TiO₂ Water Dissociates at the Aqueous Interface with Reduced Anatase(101). I. Nadeem, J. Treacy, S. Selcuk, X. Torrelles, H. Hussain, A. Wilson, D. Grinter, G. Cabailh, O. Bikondoa, C. Nicklin, A. Selloni, J. Zegenhagen, R. Lindsay, G. Thornton. Journal of Physical Chemistry Letters 9 (11), 2018, 3131-3136.
18. Self-organized carbon-rich stripe formation from competitive carbon and aluminium seg- regation at Fe_0.85Al_0.15(110) surfaces. Z. Dai, P. Borghetti, Y. Mouchaal, S. Chenot, P. David, J. Jupille, G. Cabailh, R. Lazzari. Applied Surface Science 444, 2018, 457-466.
19. Geometric structure of anatase TiO₂(101). J.P.W. Treacy, H. Hussain, X. Torrelles, D.C. Grinter, G. Cabailh, O. Bikondoa, C. Nicklin, S. Selcuk, A. Selloni, R. Lindsay, G. Thornton. Physical Review B 95 (7), 2017, 075416.
20. Orientation-dependent chemistry and band-bending of Ti on polar ZnO surfaces. P. Borghetti, Y. Mouchaal, Z. Dai, G. Cabailh, S. Chenot, R. Lazzari, J. Jupille. Physical Chemistry Chemical Physics, 2017, 19 (16), 10350-10357.
21. Structure of a model TiO₂ photocatalytic interface. H. Hussain, G. Tocci, T. Woolcot, X. Torrelles, C. L. Pang, D. S. Humphrey, C. M. Yim, D. C. Grinter, Gregory Cabailh, O. Bikondoa, R. Lindsay, J. Zegenhagen, A. Michaelides, G. Thornton. Nature Materials 16, 2017, 461-466.
22. Photoemission Fingerprints for Structural Identification of Titanium Dioxide Surfaces. P. Borghetti, E. Meriggio, G. Rousse, G. Cabailh, R. Lazzari, J. Jupille. Journal of Physical Chemistry Letters 7 (16), 2016, 3223-3228.
23. Surface and Epitaxial Stresses on Supported Metal Clusters. R. Lazzari, J. Goniakowski, G. Cabailh, R. Cavallotti, N. Trcera, P. Lagarde, J. Jupille. Nano Letters 16 (4), 2016, 2574-2579.
24. Quantitative Structure of an Acetate Dye Molecule Analogue at the TiO₂  Acetic Acid Interface. H. Hussain, X. Torrelles, G. Cabailh, P. Rajput, R. Lindsay, O. Bikondoa, M. Tillotson, R. Grau-Crespo, J. Zegenhagen, G. Thornton. Journal of Physical Chemistry C 120 (14), 2016, 7586-7590.
25. Synthesis of TiO₂ (110) ultra-thin films on W(100) and their reactions with H2O. J. Matharu, G. Cabailh, G. Thornton. Surface Science 616, 2013, 198-205.
26. Transport and optical gaps and energy band alignment at organic-inorganic interfaces. D. A. Evans, A. R. Vearey-Roberts, O. R. Roberts, G.T. Williams, S. P. Cooil, D. P. Langstaff, G. Cabailh, I.T. Mcgovern, J. P. Goss. Journal of Applied Physics 114 (12), 2013, 123701.
27. Defect mediated manipulation of nanoclusters on an insulator. T. Hynninen, G. Cabailh, A.S. Foster, C. Barth. Scientific Reports 3, 2013, 1270.
28. Thin NaCl films on silver (001): island growth and work function. G. Cabailh, C.R. Henry, C. Barth. New Journal of Physics 14 (10), 2012, 103037.
29. Stoichiometry-Dependent Chemical Activity of Supported MgO(100) Films. G. Cabailh, R. Lazzari, H. Cruguel, J. Jupille, L. Savio, M. Smerieri, A. Orzelli, L. Vattuone, M. Rocca. Journal of Physical Chemistry A 115 (25), 2011, 7161 – 7168.
30. Reduction of thin-film ceria on Pt(111) by supported Pd nanoparticles probed with resonant photoemission. J. Matharu, G. Cabailh, R. Lindsay, C.L. Pang, D.C. Grinter, T. Sk ́ala, G. Thornton. Surface Science 605 (11-12), 2011, 1062-1066.
31. Size and catalytic activity of supported gold nanoparticles: an in operando study during CO oxidation.I. Laoufi, M.-C. Saint-Lager, R. Lazzari, J. Jupille, O. Robach, S. Garaud ́ee, G. Cabailh, P. Dolle, H. Cruguel, A. Bailly. Journal of Physical Chemistry C 115, 2011, 4673-4679.
32. Evidence for an active oxygen species on Au/TiO₂ (110) model catalysts during investi- gation with in situ X-ray photoelectron spectroscopy. K. Dumbuya, G. Cabailh, R. Lazzari, J. Jupille, L. Ringel, M. Pistor, O. Lytken, H.-P. Steinru ̈ck, J.M. Gottfried. Catalysis Today 181 (1), 2011, 20 – 25.
33. Bonding of Methyl Phosphonate to TiO₂ (110). C.L. Pang, M. Watkins, G. Cabailh, S. Ferrero, L.T. Ngo, Q. Chen, D.S. Humphrey, A.L. Shluger, G. Thornton. Journal of Physical Chemistry C 114 (40), 2010, 16983-16988.
34. Electron traps and their effect on the surface chemistry of TiO₂ (110). A.C. Papageorgiou, N.S. Beglitis, C.L. Pang, G. Teobaldi, G. Cabailh, Q. Chen, A.J. Fisher, W.A. Hofer, G. Thornton. Proceedings of the National Academy of Sciences of the U.S.A. 107 (6), 2010, 2391-2396.
35. Geometric structure of TiO₂ (110)(1×1): Confirming experimental conclusions. W. Busayaporn, X. Torrelles, A. Wander, S. Tomic, A. Ernst, B. Montanari, N. M. Harrison, O. Bikondoa, I. Joumard, J. Zegenhagen, G. Cabailh, G. Thornton, R. Lindsay. Physical Review B 81 (15), 2010, 153404.
36. Real-time monitoring of the evolving morphology and molecular structure at an organic- inorganic semiconductor interface: SnPc on GaAs(001). D. A. Evans, A. R. Vearey-Roberts, O. R. Roberts, A. C. Brieva, A. Bushell, G. T. Williams, D. P. Langstaff, G. Cabailh, I. T. Mcgovern.Journal of Vacuum Science and Technology B, American Institute of Physics 28 (4), 2010, C5F5-C5F11.
37. Self-Assembled Metallic Nanowires on a Dielectric Support: Pd on Rutile TiO₂ (110). D.S. Humphrey, G. Cabailh, C.L. Pang, C.A. Muryn, S.A. Cavill, H. Marchetto, A. Potenza, S.S. Dhesi, G. Thornton.
    Nano Letters, American Chemical Society 9 (1), 2009, 155-159.
38. Arrangement of metal phthalocyanines on Ge (001) 2×1 surfaces. N. Holland, G. Cabailh, N. Peltekis, C. Mcguinness, A.A. Cafolla, I.T. Mcgovern. Ap- plied Surface Science 255 (3), 2008, 775-777.
39. Redox Behavior of the Model Catalyst Pd/CeO2−x /Pt(111).
    E.L. Wilson, R. Grau-Crespo, C.L. Pang, G. Cabailh, Q. Chen, J. A. Purton, C.R A. Catlow, W.A. Brown, N.H. De Leeuw, G. Thornton. Journal of Physical Chemistry C 112 (29), 2008, 10918 – 10922.
40. Geometric Structure of TiO₂ (011) (2×1). X. Torrelles, G. Cabailh, R. Lindsay, O. Bikondoa, J. Roy, J. Zegenhagen, G. Teobaldi, W. A. Hofer, G. Thornton. Physical Review Letters, 101 (18) 2008, 185501.
41. Modelling STM images of TiO₂ (110) from first-principles: Defects, water adsorption and dissociation products. G. Teobaldi, W.A. Hofer, O. Bikondoa, C.L. Pang, G. Cabailh, G. Thornton. Chemical Physics Letters 437 (1-3), 2007, 73-78.
42. Geometric structure of TiO₂ (110) (1×1) : Achieving experimental consensus. G. Cabailh, X. Torrelles, R. Lindsay, O. Bikondoa, I. Joumard, J. Zegenhagen, G. Thorn- ton. Physical Review B 75 (24), 2007, 241403.
43. Growth and Reactivity of Titanium Oxide Ultrathin Films on Ni(110). A.C. Papageorgiou, G. Cabailh, Q. Chen, A. Resta, E. Lundgren, J.N. Andersen, G. Thornton. Journal of Physical Chemistry C 111 (21), 2007, 7704-7710.
44. TiO₂ Tailored(110) surfaces and their reactivity.C.L. Pang, O. Bikondoa, H. Humphrey, A.C. Papageorgiou, G. Cabailh, R. Ithnin, Q. Chen, C.A. Muryn, H. Onishi, G. Thornton. Nanotechnology 17 (21), 2006, 5397-5405.
45. Soft X-ray photoelectron spectroscopy of metal-phthalocyanines on the (001) surface of GaAs and Ge. G. Cabailh, B.N. Holland, C. Stephens, I.T. Mcgovern, C. Mcguinness, A. Cafolla, A.R. Vearey-Roberts, D.A. Evans. Journal de Physique IV 132, 2006, 11-15.
46. Growth of Metal-Phthalocyanine on GaAs(001): an NEXAFS study. G. Cabailh, I.T. Mcgovern, A.R. Vearey-Roberts, A. Bushell, D.A. Evans. Proceedings of SPIE, The International Society for Optical Engineering 5826, 2005, 37-43.
47. Synchrotron radiation studies of the growth and beam damage of tin phthalocyanine on GaAs(001)-1×6 substrates. G. Cabailh, J.W. Wells, I.T. Mcgovern, A.R. Vearey-Roberts, A. Bushell, D.A. Evans. Applied Surface Science 234 (1-4), 2004, 144-148.
48. Growth and morphology of SnPc films on the S-GaAs(001) surface: a combined XPS, AFM and NEXAFS study. A.R. Vearey-Roberts, S. Steiner, S. Evans, I. Cerrillo, J. Mendez, G. Cabailh, S. O’Brien, J.W. Wells, I.T. Mcgovern, D.A. Evans. Applied Surface Science 234 (1-4), 2004, 131- 137.
49. An XPS study of the interaction between tin(II) phthalocyanine and polycrystalline iron. J.W. Wells, G. Cabailh, A. Evans, S. Evans, A. Bushell, A.R. Vearey-Roberts. Journal of Electron Spectroscopy and Related Phenomena 141 (1), 2004, 67-72.
50. Copper phthalocyanine on InSb(111)A—interface bonding, growth mode and energy band alignment. D.A. Evans, S. Steiner, S. Evans, R. Middleton, S. Jones, S. Park, T.U. Kampen, D.R.T. Zahn, G. Cabailh, I.T. Mcgovern. Journal of Physic: Condensed Matter 15 (38), 2003, S2729-S2740.
51. Soft x-ray photoelectron spectroscopy of tin–phthalocyanine/GaAs(001)-1×6 interface formation. G. Cabailh, J.W. Wells, I.T. Mcgovern, V.R. Dhanak, A.R. Vearey-Roberts, A. Bushell, D.A. Evans. Journal of Physics: Condensed Matter 15 (38), 2003, S2741-S2748.
52. Perylenes and phthalocyanines on GaAs(001) surfaces. D.A. Evans, S. Steiner, A.R. Vearey-Roberts, V. Dhanak, G. Cabailh, S. O’Brien, I.T. Mcgovern, W. Braun, T.U. Kampen, S. Park, D.R.T. Zahn. Applied Surface Science 212-213, 2003, 417-422.
53. Synchrotron radiation studies of inorganic–organic semiconductor interfaces. G. Cabailh, D.A. Evans, H.J. Steiner, A.R. Vearey-Roberts, A. Bushell, S. O’Brien, J.W. Wells, I.T. Mcgovern, V.R. Dhanak, T. Kampen, D.R.T. Zahn, D. Batchelor. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 199, 2003, 475-480.