Oxidation of Nb(110): atomic structure of the NbO layer and its influence on further oxidation
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K. Fleischer | I. Shvets | A. Zhussupbekova | B. Walls | V. Semenov | S. Bozhko | Emma Norton | A. Ionov | Killian Walshe | Kuanysh Zhussupbekov
[1] N. Tulina,et al. Surface modification on MoO2+x/Mo(110) induced by a local electric potential , 2019, Scientific Reports.
[2] S. Heinze,et al. Preparation and electronic properties of clean superconducting Nb(110) surfaces , 2019, Physical Review B.
[3] K. Fleischer,et al. Reflectance anisotropy spectroscopy of Fe3O4 (110): Anisotropic strain , 2018, Physical Review B.
[4] Sangsoo Kim,et al. Optical Anisotropy of SrTiO3(110) for Different Surface Terminations , 2018 .
[5] M. Ziolek,et al. The role of niobium component in heterogeneous catalysts , 2017 .
[6] T. Reid,et al. Surface processing for bulk niobium superconducting radio frequency cavities , 2017 .
[7] T. Marwick. An X-Ray Study of , 2017 .
[8] K. Fleischer,et al. Oxygen vacancy induced surface stabilization: (110) terminated magnetite , 2016 .
[9] M. Graça,et al. Niobium oxides and niobates physical properties: Review and prospects , 2016 .
[10] E. Llobet,et al. Formation and gas-sensing properties of a porous-alumina-assisted 3-D niobium-oxide nanofilm , 2016 .
[11] Leo P. Kouwenhoven,et al. One minute parity lifetime of a NbTiN Cooper-pair transistor , 2015, Nature Physics.
[12] W. Millman. TRENDS IN TANTALUM AND NIOBIUM CAPACITORS , 2015 .
[13] L. Hammer,et al. Subsurface cation vacancy stabilization of the magnetite (001) surface , 2014, Science.
[14] Brendan Bulfin,et al. Writing with atoms: Oxygen adatoms on the MoO2/Mo(110) surface , 2013, Nano Research.
[15] K. Kalantar-zadeh,et al. Nanoporous Nb2O5 hydrogen gas sensor , 2013 .
[16] S. Horn,et al. LEED and STM studies of the stability of the MoO2(100) surface , 2011 .
[17] Yoshio Waseda,et al. Thermodynamic Properties of Niobium Oxides , 2010 .
[18] Robert A. Kraft,et al. Review And Prospects , 2010 .
[19] E. Shalaeva,et al. Photoelectron spectroscopy and diffraction of NbOx/Nb(110) surface , 2008 .
[20] A. Stierle,et al. X-ray investigation of subsurface interstitial oxygen at Nb/oxide interfaces , 2008 .
[21] M. Delheusy. X-ray investigation of Nb/O interfaces , 2008 .
[22] R. Rosenberg,et al. Thermal effect on the oxides on Nb(100) studied by synchrotron-radiation x-ray photoelectron spectroscopy , 2004 .
[23] I. Arfaoui,et al. A model of the NbOx 1 nanocrystals tiling a Nb(110) surface annealed in UHV , 2004 .
[24] M. Yoshimura,et al. Surface structures of clean and oxidized Nb(100) by LEED, AES, and STM , 2003 .
[25] O. Hellwig,et al. Oxygen ordering in Nb(110) films , 2003 .
[26] R. Rosenberg,et al. Angle-resolved X-ray photoelectron spectroscopy study of the oxides on Nb surfaces for superconducting r.f. cavity applications , 2003 .
[27] O. Dulub. STM Study of the Geometric and Electronic Structure of ZnO (0001)-Zn, (0001bar)-O, (101bar 0), and (1120bar) Surfaces , 2002 .
[28] H. Safa,et al. Tiling of a Nb(110) surface with NbO crystals nanosized by the NbO/Nb misfit , 2002 .
[29] C. P. Flynn,et al. Thermally activated stripe reconstruction induced by O on Nb (011). , 2001, Physical review letters.
[30] O. Okunev,et al. Picosecond superconducting single-photon optical detector , 2001 .
[31] X. Xu,et al. Surface structure of niobium-dioxide overlayer on niobium(100) identified by scanning tunneling microscopy , 2001 .
[32] M. Iwami,et al. Single NbO nano-crystal formation on low temperature annealed Nb(001) surface , 2001 .
[33] H. Löhneysen,et al. Oxygen-induced surface structure of Nb(1 1 0) , 2001 .
[34] O. Hellwig,et al. Oxidation of /Nb(110) thin films on a-plane sapphire substrates: an X-ray study , 2000 .
[35] M. Konagai,et al. Room Temperature Nb-Based Single-Electron Transistors , 1997 .
[36] R. Franchy,et al. The interaction of oxygen with Nb(110) at 300, 80 and 20 K , 1996 .
[37] Dietmar Drung,et al. Low‐noise high‐speed dc superconducting quantum interference device magnetometer with simplified feedback electronics , 1990 .
[38] Z. Hu,et al. The interaction of oxygen with niobium studied by XPS and UPS , 1989 .
[39] J. Halbritter,et al. On the oxidation and on the superconductivity of niobium , 1987 .
[40] Dosch,et al. Point-defect-induced nucleation of the omega phase. , 1986, Physical review. B, Condensed matter.
[41] M. Peiniger,et al. A Superconducting Nb3Sn Coated Multicell Accelerating Cavity , 1985, IEEE Transactions on Nuclear Science.
[42] T. Kuan,et al. Structure of a Nb oxide tunnel barrier in a Josephson junction , 1982 .
[43] W. Spicer,et al. Oxidation of Nb as studied by the uv-photoemission technique , 1974 .
[44] C. Koch,et al. Effects of interstitial oxygen on the superconductivity of niobium , 1974 .
[45] H. Roetschi,et al. A.C. polarisation in B-modification Nb2O5 single crystals , 1968 .