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M. Shirai, K. Asakura, Y. Iwasawa (1992)
Anisotropic structure analysis for cobalt oxides on α-Al2O3(0001) by polarized total-reflection fluorescence extended X-ray absorption fine structureCatalysis Letters, 15
A. Kolmakov, J. Kovac, S. Günther, L. Casalis, L. Gregoratti, M. Marsi, M. Kiskinova (1997)
Ag on Au/Si(111):mInterfacial interactions on a submicrometer scalePhysical Review B, 55
Diebold, V. Anderson, Ng, Vanderbilt (1996)
Evidence for the Tunneling Site on Transition-Metal Oxides: TiO2(110).Physical review letters, 77 7
H. Onishi, Y. Iwasawa (1994)
STM-imaging of formate intermediates adsorbed on a TiO2(110) surfaceChemical Physics Letters, 226
Hiroshi Onishi, Yasuhiro Iwasawa (1996)
Dynamic visualization of a metal-oxide-surface/gas-phase reaction: Time-resolved observation by scanning tunneling microscopy at 800 K.Physical review letters, 76 5
K. Ng, E. Gulari (1985)
Molybdena on titania: I. Preparation and characterization by Raman and Fourier Transform Infrared spectroscopyJournal of Catalysis, 92
H. Onishi, Y. Iwasawa (1994)
Reconstruction of TiO2(110) surface: STM study with atomic-scale resolutionSurface Science, 313
H. Rotermund, W. Engel, M. Kordesch, G. Ertl (1990)
Imaging of spatio-temporal pattern evolution during carbon monoxide oxidation on platinumNature, 343
S. Heald, E. Keller, E. Stern (1984)
Flourescence detection of surface exafsPhysics Letters A, 103
G. Charlton, P. Howes, C. Nicklin, P. Steadman, J.S.G. Taylor, C. Muryn, S. Harte, J. Mercer, R. McGrath, D. Norman, Tracy Turner, G. Thornton (1997)
RELAXATION OF TIO2(110)-(1 X 1) USING SURFACE X-RAY DIFFRACTIONPhysical Review Letters, 78
F. Jones, R. Dixon, J. Foord, R. Egdell, J. Pethica (1997)
The surface structure of SnO2(110)(4 × 1) revealed by scanning tunneling microscopySurface Science, 376
F. Kutzler, C. Natoli, D. Misemer, S. Doniach, K. Hodgson (1980)
Use of one‐electron theory for the interpretation of near edge structure in K‐shell x‐ray absorption spectra of transition metal complexesJournal of Chemical Physics, 73
D. Koningsberger, R. Prins (1988)
X-ray absorption : principles, applications, techniques of EXAFS, SEXAFS and XANESChemia Analityczna, 92
G. Thornton (1993)
Molecular Adsorption on TiO2 and ZnO Surfaces
Y. Iwasawa (1997)
Recent progress in surface scientific approaches to oxide catalysisCatalysis Surveys from Asia, 1
T. Machej, B. Doumain, B. Yasse, B. Delmon (1988)
Studies of Architecture of Moo3-tio2 CatalystsJournal of the Chemical Society, Faraday Transactions, 84
Y. Iwasawa (1996)
X-Ray Absorption Fine Structure for Catalysts and Surfaces
H. Onishi, Y. Iwasawa (1994)
Observation of anisotropic migration of adsorbed organic species using nanoscale patchworks fabricated with a scanning tunneling microscopeLangmuir, 10
Y. Iwasawa (1997)
Applications of X-Ray Absorption Fine Structure to Catalysts and Model SurfacesJournal De Physique Iv, 7
H. Shimada, N. Matsubayashi, T. Sato, Y. Yoshimura, A. Nishijima, N. Kosugi, H. Kuroda (1992)
XAFS study of molybdenum oxide catalysts on various supportsJournal of Catalysis, 138
W. Jorgensen, L. Salem (1973)
The Organic Chemist's Book of Orbitals
J. Rehr, J. Leon, S. Zabinsky, R. Albers (1991)
Theoretical X-ray Absorption Fine Structure StandardsJournal of the American Chemical Society, 113
Y. Iwasawa (1996)
Characterization and chemical design of oxide surfacesStudies in Surface Science and Catalysis, 101
H. Onishi, Y. Yamaguchi, and Fukui, Y. Iwasawa (1996)
Temperature-Jump STM Observation of Reaction Intermediate on Metal−Oxide SurfacesThe Journal of Physical Chemistry, 100
M. Barteau (1996)
Organic Reactions at Well-Defined Oxide Surfaces.Chemical reviews, 96 4
H. Onishi, K. Fukui, Y. Iwasawa (1996)
Molecularly resolved observation of anisotropic intermolecular force in a formate-ion monolayer on a TiO2 (110) surface by scanning tunneling microscopyColloids and Surfaces A: Physicochemical and Engineering Aspects, 109
M. Shirai, K. Asakura, Y. Iwasawa (1992)
Asymmetric Structure Determination of Copper Oxide on α-Quartz(0001) Surface by Polarized Total-Reflection Fluorescence Extended X-Ray Absorption Fine Structure SpectroscopyChemistry Letters, 1992
J. Volta, J. Portefaix (1985)
Structure sensitivity of mild oxidation reactions on oxide catalysts - a reviewApplied Catalysis, 18
M. Shirai, Y. Iwasawa (1996)
Total-Reflection XAFS
S. Günther, A. Kolmakov, J. Kovac, L. Casalis, L. Gregoratti, M. Marsi, M. Kiskinova (1997)
Scanning photoelectron microscopy of a interface: Au coadsorbed onSurface Science
M. Ramamoorthy, D. Vanderbilt, R. King-Smith (1994)
First-principles calculations of the energetics of stoichiometric TiO2 surfaces.Physical review. B, Condensed matter, 49 23
HLuHB Darmstadt, J. Ranney, D. Starr, J. Musgrove, D. Bald, Min Li, W. Hebenstreit, U. Diebold, M. Henderson, Y. Iwasawa, H. Onishi, Kensuke Fukui, Shushi Suzuki, Takehiko Sasaki (1996)
The surface science of metal oxides
B. Maschhoff, Jian-Mei Pan, T. Madey (1991)
Medium-energy backscattered electron diffraction studies of TiO2(110): relation to surface structureSurface Science, 259
K. Asakura (1996)
Analysis of EXAFS
H. Onishi, Y. Iwasawa (1996)
STM observation of surface reactions on a metal oxideSurface Science
H. Onishi, K. Fukui, Y. Iwasawa (1995)
Atomic-Scale Surface Structures of TiO2(110) Determined by Scanning Tunneling Microscopy: A New Surface-Limited Phase of Titanium OxideBulletin of the Chemical Society of Japan, 68
B. McIntyre, M. Salmeron, G. Somorjai (1992)
A scanning tunneling microscope that operates at high pressures and high temperatures (430 K) and during catalytic reactionsCatalysis Letters, 14
This paper reports the visualization of mobile pyridine on the terraces and site-specific adsorption of pyridine on the particular step sites on a TiO2(110)-(1×1) surface by scanning tunneling microscopy (STM), the anisotropic structure and reactivity of molybdenum oxides dispersed on TiO2(110)-(1×1) characterized by polarization-dependent total-reflection fluorescence x-ray absorption fine structure (PTRF-EXAFS), and the energy dispersive and real-time images of Au mesh on Si(111) recorded by a new x-ray photoemission electron miscroscopy (XPEEM).
Research on Chemical Intermediates – Springer Journals
Published: Apr 14, 2009
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