Publications: 1999 2001 2002 2003 2004 2005 2006 2007 2008 2009 2010 2011 2012 2013 |
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2013 | |
Chemical
Chemische Aktivität von dünnen Oxidschichten: Starke
Träger-Wechselwirkungen ergeben eine neue ZnO-Dünnfilmphase V. Schott, H. Oberhofer, A. Birkner, M. Xu, Y. Wang, M. Muhler, K. Reuter, Ch. Wöll Angew. Chem. 125, 12143-12147 (2013); |
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Chemical activity of thin oxide
layers: strong interactions with the support yield a new thin-film phase of ZnO V. Schott, H. Oberhofer, A. Birkner, M. Xu, Y. Wang, M. Muhler, K. Reuter, Ch. Wöll Angew. Chem. Int. Ed. 52, 11925-11929 (2013). |
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Mild yet
phase-selective preparation of TiO2 nanoparticles from ionic
liquids-a critical study T. Alammar, H. Noei, Y. Wang, A.-V. Mudring Nanoscale, 5 8045-8050 (2013). |
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Vibrational spectroscopic studies on pure and metal-covered metal
oxide surfaces (Feature article) H. Noei, L. Jin, H. Qiu, M. Xu, Y. Gao, M. Kauer, Ch. Wöll, M. Muhler, Y. Wang Phys. Status Solidi B 250, 1204-1221 (2013). |
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Iron metal-organic frameworks MIL-88B and NH2-MIL-88B
for the loading and delivery of the gasotransmitter carbon monoxide M. Ma, H. Noei, B. Mienert, J. Niesel, E. Bill, M. Muhler, R. A. Fischer, Y. Wang, U. Schatzschneider, N. Metzler-Nolte Chem. Eur. J. 19, 6785-6790 (2013). |
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Molecular understanding
of reactivity and selectivity for methanol oxidation at the Au/TiO2
interface M. Farnesi Camellone, J. Zhao, L. Jin, Y. Wang, M. Muhler, D. Marx Angew. Chem. 125, 5892-5896 (2013); Angew. Chem. Int. Ed. 52, 5780-5784 (2013) . |
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CO
adsorption on a mixed-valence ruthenium metal-organic framework studied by
UHV-FTIR spectroscopy and DFT calculations H. Noei, O. Kozachuk, S. Amirjalayer, S. Bureekaew, M. Kauer, R. Schmid, B. Marler, M. Muhler, R. Fischer, Y. Wang J. Phys. Chem. C 117, 5658–5666 (2013). |
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Coverage-induced hydrogen transfer on ZnO
surfaces: from ideal to real systems H. Noei, F. Gallino, L. Jin, J. Zhao, C. Di Valentin, Y. Wang Angew. Chem. 125, 2031-2035 (2013); Angew. Chem. Int. Ed. 52, 1977-1981 (2013). |
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A combined
experimental and computational study the adsorption and reactions of NO on
rutile TiO2 D. Stodt, H. Noei, C. Hättig, Y. Wang Phys. Chem. Chem. Phys. 15, 466-472 (2013). |
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Low-temperature CO oxidation with TiO2-supported
Au3+ ions W. Grünert, D. Großmann, H. Noei, M. M. Pohl, I. Sinev, A. De Toni, Y. Wang, M. Muhler, submitted for publication (2013). |
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Surface-modified TiO2
Photocatalysts prepared by a photosynthetic route: mechanism, enhancement, and
limits S. Neubert, A. Ramakrishnan, J. Strunk, H. Shi, B. Mei, L. Wang, M. Bledowski, D. A. Guschin, M. Kauer, Y. Wang, M. Muhler, R. Beranek submitted for publication (2013) |
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2012 | |
Probing the mechanism of low-temperature CO
oxidation on Au/ZnO catalysts by vibrational spectroscopy H. Noei, A. Birkner, K. Merz, M. Muhler, Y. Wang, J. Phys. Chem. C 116, 11181–11188 (2012). |
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Anwendung des oberflächenwissenschaftlichen Ansatzes auf
Reaktionen an Oxidpulvern: die Bedeutung der IR-Spektroskopie M. Xu, H. Noei, K. Kink, M. Muhler, Y. Wang, Ch. Wöll Angew. Chem. 124, 4810-4813 (2012). |
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The surface science approach for understanding reactions on oxide
powders: The importance of IR spectroscopy M. Xu, H. Noei, K. Kink, M. Muhler, Y. Wang, Ch. Wöll Angew. Chem. Int. Ed. 51, 4731-4734 (2012). |
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Low-temperature CO oxidation over
Cu-based metal-organic frameworks monitored by using FTIR spectroscopy H. Noei, S. Amirjalayer, M. Muller, X. Zhang, R. Schmid, M. Muhler, R. Fischer, Y. Wang ChemCatChem. 4, 755-759 (2012). |
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Dissociation of formic acid on
anatase TiO2(101) probed by vibrational spectroscopy M. Xu, H. Noei, M. Buchholz, M. Muhler, Ch. Wöll, Y. Wang Catal. Today 182, 12-15 (2012). |
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Defects in MOFs: A thorough characterization P. St. Petkov, G. N. Vayssilov, J. Liu, O. Shekhah, Y. Wang, Ch. Wöll, T. Heine ChemPhysChem. 14, 2025–2029 (2012). |
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On the complexation kinetics for metallization of organic layers:
palladium onto a pyridine-terminated araliphatic thiol film M. I. Muglali, J. X. Liu, A. Baschir, D. Borissov, M. Xu, Y. Wang, Ch. Wöll, M. Rohwerder Phys. Chem. Chem. Phys. 14, 4703–4712 (2012). |
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Rare-earth substituted HfO2 thin films grown by
metalorganic chemical vapor deposition A. Devi, S. Cwik, K. Xu, A.P. Milanov, H. Noei, Y. Wang, D. Barreca, J. Meijer, D. Rogalla, D. Kahn, R. Cross, H. Parala, S. Paul Thin Solid Films 520, 4512−4517 (2012). |
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2011 | |
Activation of Carbon Dioxide on ZnO
Nanoparticles Studied by Vibrational Spectroscopy H. Noei, C. Wöll, M. Muhler, Y. Wang J. Phys. Chem. C 115, 908-914 (2011). |
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Photocatalytic Activity of
Bulk TiO2
Anatase and Rutile Single Crystals Using Infrared Absorption
Spectroscopy M. Xu, Y.K. Gao, E. M. Moreno, M. Kunst, M. Muhler, Y. Wang, H. Idriss, and Ch.Wöll Phys. Rev. Lett. 106, 138302 (2011). |
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D. Esken, H. Noei, Y. Wang, C. Wiktor, S. Turner, G. van Tendeloo, R. A. Fischer J. Mater. Chem. 21, 5907-5915 (2011). |
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Au@MOF-5 and Au/MO(x)@MOF-5 (M=Zn, Ti; x=1,2): Preparation and Microstructural Characterization M. Muller, S. Turner, OI. Lebedev, Y. Wang, G. van Tendeloo, R. A. Fischer Eur. J. Inorg. Chem. 12, 1876-1887 (2011). |
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Shallow
Donor States Induced by In-Diffused Cu
in ZnO: A Combined HREELS and Hybrid DFT Study H. Qiu, F. Gallino, C. Di Valentin, Y. Wang Phys. Rev. Lett. 106, 066401 (2011). |
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Solvothermal growth of a ruthenium metal-organic framework featuring HKUST-1 structure type as thin films on oxide surfaces O. Kozachuk, K. Yusenko, H. Noei, Y. Wang, S. Walleck, T. Glaser, RA. Fischer Chem. Com. 47, 8509-8511 (2011). |
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Use
of confocal flurescence microscopy to compare different methods of
modifying metal-organic framework (MOF) crystals with dyes M.Y. Ma, A. Gross, D. Zacher, A. Pinto, H. Noei, Y. Wang, R. A. Fischer, N. Metzler Nolte CrystEngComm. 13, 2828-2832 (2011). |
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Combined Theoretical and Experimental Study on the Adsorption of Methanol on the ZnO(10-10) surface J. Kiss, D. Langenberg, D. Silber, F. Traeger, L. Jin, H. Qiu, Y. Wang, B. Meyer, C. Wöll J. Phys. Chem. A 115, 7180-7188 (2011). |
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2010 | |
Hydrogen Loading of Oxide Powder Particles: A Transmission IR Study for the Case of Zinc Oxide H. Noei, H. Qiu, Y. Wang, M. Muhler, and Ch. Wöll ChemPhysChem, 11, 3604-3607 (2010) |
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Comment on “Imaging of the hydrogen subsurface site in rutile TiO2” M. Calatayud, X.- L. Yin, H. Qiu, Y. Wang, A. Birkner, C. Minot, and Ch. Wöll Phys. Rev. Lett. 104, 119603 (2010). |
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On
the active state of stearate-based Cu colloids applied in methanol
synthesis: structural changes driven by strong metal-support interactions S. Schimpf, A. Rittermeier, X. Zhang, Z. Li, M. Spasova, M. W.E. van den Berg, M. Farle, Y. Wang, R. A. Fischer, and M. Muhler ChemCatChem, 2, 214-222 (2010). |
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Nanostructured WCx/CNTs as highly efficient support of electrocatalysts with low Pt loading for oxygen reaction C. Liang, L. Ding, C. Li, M. Pang, D. Su, W. Li, Y. Wang Energy Environ. Sci. 3, 1121-1127 (2010) |
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Monitoring electronic structure changes of TiO2(110) via sign reversal of adsorbate vibrational bands M. Xu, Y. K. Gao, Y. Wang, and Ch. Wöll Phys. Chem. Chem. Phys. 12, 3649-3652 (2010). |
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2009 | |
A
new dual-purpose ultrahigh vacuum infrared spectroscopy apparatus
optimized for grazing-incidence reflection as well as for transmission geometries Y. Wang, A. Glenz, M. Muhler, and Ch. Wöll Rev. Sci. Instrum. 80, 113108 (2009). |
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Interaction of NO with the O-rich RuO2 (110) Surface at 300 K K. Jacobi, and Y. Wang Surf. Sci. 603, 1600-1604 (2009). |
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Formation of weakly bound, ordered adlayers of CO on rutile TiO2(110): A combined experimental and theoretical study M. Kunat, F. Traeger, H. Qiu, Y. Wang, A. C. Van Veen, Ch. Wöll, P. Kowacik, B. Meyer, C. Hättig, and D. Marx J. Chem. Phys. 130, 144703 (2009). |
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Electrocatalytic Activity and Stability of Nitrogen-Containing Carbon Nanotubes in the Oxygen Reduction Reaction S. Kundu, T.C. Nagaiah, W. Xia, Y. Wang, S. Van Dommele, J.H. Bitter, M. Santa, G. Grundmeier, M. Bron, W. Schuhmann, and M. Muhler J. Phys. Chem. C 113, 14302-14310 (2009). |
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Synthesis
and Catalytic Performance of Pd Nanoparticle/Functionalized CNF
Composites by a Two-Step Chemical Vapor Deposition of Pd(allyl)(Cp) Precursor C. Liang, W. Xia, M. van den Berg, Y. Wang, H. Soltani-Ahmadi, O. Schlüter, R. A. Fischer, and M. Muhler Chem. Mater., 21, 2360-2366 (2009). |
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Nanometer-sized Titania hosted inside MOF-5 M. Müller, X. Zhang, Y. Wang, and R. Fischer Chem. Commun. 2009, 119-121 (2009). |
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The
Formation of Colloidal Copper Nanoparticles Stabilized by Zinc
Stearate: One-Pot Single-Step Synthesis and Characterization of the Core-Shell Particles A. Rittermeier, S. Miao, M. K. Schröter, X. Zhang, M. W. E. van den Berg, S. Kundu, Y. Wang, S. Schimpf, R. A. Fischer, and M. Muhler Phys. Chem. Chem. Phys. 11, 8358-8366 (2009). |
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Chemical reactions on metal oxide surfaces investigated by vibrational spectroscopy Y. Wang, and Ch. Wöll (review) Surf. Sci. 603, 1589-1599 (2009). |
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2008 | |
Ionization energies of shallow donor states in ZnO created by reversible formation and depletion of H interstitials H. Qiu, B. Meyer, Y. Wang, and Ch. Wöll Phys. Rev. Lett. 101, 236401 (2008). |
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Thermal
Stability and Reducibility of Oxygen-containing Functional Groups
on Multiwalled Carbon Nanotube Surfaces: A Quantitative High-Resolution XPS and TPD/TPR Study S. Kundu, Y. Wang, W. Xia, and M. Muhler J. Phys. Chem. C, 112, 16869-16878 (2008). |
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The identification of hydroxyl groups on ZnO nanoparticles by infrared spectroscopy H. Noei, H. Qiu, Y. Wang, E. Löffler, Ch. Wöll, and M. Muhler Phys. Chem. Chem. Phys. 10, 7092-7097 (2008). |
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Direct monitoring of photo-induced reactions on well-defined metal oxide surfaces using vibrational spectroscopy C. Rohmann, Y. Wang, M. Muhler, H. Idriss and Ch. Wöll Chem. Phys. Lett. 460, 10-12 (2008). |
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Carbon-carbon bond formation on model titanium oxide surfaces: Identification of surface reaction intermediates by HREELS H. Qiu, H. Idriss, Y. Wang, Ch. Wöll J. Phys. Chem. C 112, 9828-9834 (2008). |
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High resolution electron energy loss spectroscopy on perfect and defective oxide surfaces (Review) Y. Wang Z. Phys. Chem. 222, 927-964 (2008). |
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Diffusion versus desorption: Complex behaviour of H atoms on an oxide surface X.-L. Yin, M. Calatayud, H. Qiu, Y. Wang, A. Birkner, C. Minot, Ch. Wöll ChemPhysChem. 9, 253-256 (2008). |
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2007 | |
Chemical
vapor synthesis of secondary carbon nanotubes catalysed by iron
nanoparticles electrodeposited on primary carbon nanotubes W. Xia, X. Chen, S. Kundu, X. Wang, G. Grundmeier, Y. Wang, M. Bron, W. Schuhmann, and M. Muhler Surface & Coatings Technology, 201, 9232-9237 (2007). |
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Tuning the reactivity of oxide surfaces by charge-accepting coadsorbates Y. Wang, X. Xia, A. Urban, H. Qiu, J. Strunk, B. Meyer, M. Muhler, and Ch. Wöll Angew. Chemie, Int. Ed. 46, 7315-7318 (2007). |
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Die Steuerung der Reaktivität von Oxidoberflächen durch ladungsakzeptierende Adsorbate Y. Wang, X. Xia, A. Urban, H. Qiu, J. Strunk, B. Meyer, M. Muhler, and Ch. Wöll Angew. Chemie, 119, 7456-7459 (2007). |
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Controlled etching of carbon nanotubes by iron-catalyzed steam gasification W. Xia, V. Hagen, S. Kundu, Y. Wang, Ch. Somsen, G. Eggeler, G. Sun, G. Grundmeier, M. Stratmann, and M. Muhler Adv. Mater., 19, 3648-3652 (2007). |
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CO2 activation by ZnO via formation of an unusual tridentate surface carbonate Y. Wang, R. Kováik, B. Meyer, K. Kotsis, D. Stodt, V. Staemmler, H. Qiu, F. Traeger, D. Langenberg, M. Muhler, and Ch. Wöll Angew. Chemie, Int. Ed. 46, 5624-5627 (2007). |
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CO2-Aktivierung durch ZnO unter Bildung eines ungewöhnlichen dreizähnigen Oberflächencarbonats Y. Wang, R. Kováik, B. Meyer, K. Kotsis, D. Stodt, V. Staemmler, H. Qiu, F. Traeger, D. Langenberg, M. Muhler, and Ch. Wöll Angew. Chemie, 119, 5722-5725 (2007). |
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The synthesis of ZrO2/SiO2 nanocomposites by the two-step CVD of a volatile halogen-free Zr alkoxide in a fluidized-bed reactior W. Xia, Y. Wang, V. Hagen, A. Heel, G. Kasper, U. Patil, A. Devi, and M. Muhler Chem. Vap. Deposition, 13, 37-41 (2007). |
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Surface characterization of
oxygen-functionalized multi-walled carbon nanotubes by high-resolution
X-ray photoelectron spectroscopy and temperature-programmed desorption W. Xia, Y. Wang, R. Bergsträer, S. Kundu, and M. Muhler Appl. Surf. Sci., 254, 247-250 (2007). |
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2006 | |
Interaction of Hydrogen with RuO2(110) Surfaces: Activity Differences between Various Oxygen Species K. Jacobi, Y. Wang, and G. Ertl J. Phys. Chem. B, 110, 6115-6122 (2006). |
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Reply to “Comment on ‘Interaction of hydrogen with RuO2(110) surfaces: Activity differences between various oxygen species’ ” K. Jacobi, Y. Wang, and G. Ertl J. Phys. Chem. B, 110, 22948-22949 (2006). |
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Spectroscopic evidence for the partial dissociation of H2O on ZnO(10-10) Y. Wang, M. Muhler, and Ch. Wöll Phys. Chem. Chem. Phys., 8, 1521-1524 (2006) |
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2005 | |
Chemical
Vapor Deposition and Synthesis on Carbon Nanofibers: Sintering of
Ferrocene-Derived Supported Iron Nanoparticles and the Catalytic Growth
of Secondary Carbon Nanofibers W. Xia, D. Su, A. Birkner, L. Ruppel, Y. Wang, Ch. Wöll, J. Qian, Ch. Liang, G. Marginean, W. Brandl, and M. Muhler Chem. Mater., 17, 5737-5742 (2005). |
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Hydrogen induced metallicity on the ZnO(10-10) surface Y. Wang, B. Meyer, X. Yin, M. Kunat, D. Langenberg, F. Traeger, A. Birkner, and Ch. Wöll Phys. Rev. Lett., 95, 266104 (2005). |
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Adsorption of Methane and Ethane on RuO2(110) surfaces U. Erlekam, U.A. Paulus, Y. Wang, H. P. Bonzel, K. Jacobi, and G. Ertl Z. Phys. Chem., 219, 891 (2005). |
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Catalytic oxidation of Ammonia on RuO2(110)surfaces:Mechanism and selectivity Y. Wang, K. Jacobi, W. –D. Schöne, and G. Ertl J. Phys. Chem. B, 109, 7883-7893 (2005). |
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Adsorption and Interaction of Ethylene on RuO2(110) surfaces U.A. Paulus, Y. Wang, H.P. Bonzel, K. Jacobi, and G. Ertl J. Phys. Chem. B, 109, 2139-2148 (2005). |
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2004 | |
Adsorption and reaction of ammonia on the Ru(11-20) surface Y. Wang, and K. Jacobi J. Phys. Chem. B, 108, 14726-14732 (2004). |
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Inhibition of CO oxidation on RuO2(110) by adsorbed H2O molecules U.A. Paulus, Y. Wang, S. H. Kim, P. Geng, J. Wintterlin, K. Jacobi, and G. Ertl J. Chem. Phys., 121, 11301 (2004). |
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Adsorption of ethylene on stoichiometric RuO2(110) U.A. Paulus, Y. Wang, H.P. Bonzel, K. Jacobi, and G. Ertl Surf. Sci., 566, 989-994 (2004). |
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2003 | |
Interaction of NO with the RuO2(110) surface Y. Wang, K. Jacobi, and G. Ertl J. Phys. Chem. B, 107, 13918-13924 (2003). |
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CO adsorption on the reduced RuO2(110) surface U. A. Paulus, Y. Wang, K. Jacobi, and G. Ertl Surf. Sci., 547, 349-354 (2003) |
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Interaction of CO with the stoichiometric RuO2(110) surface S. H. Kim, U. A. Paulus, Y. Wang, J. Wintterlin, K. Jacobi, and G. Ertl J. Chem. Phys., 119, 9729-9736 (2003) |
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Vibrational states of hydrogen monolayer on the Pt(111) surface S.C. Badescu, K. Jacobi, Y. Wang, K. Bedürftig, G. Ertl, P. Salo, T. Ala-Nissila, and S. C. Ying Phys. Rev. B, 68, 205401 (2003). |
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2002 | |
Vibrational characterization of NH and NH2 reaction intermediates on the Ru(11-20) surface Y. Wang and K. Jacobi Surf. Sci. 513, 83-92 (2002). |
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Carbonate formation on the O-enriched RuO2(110) surface A. Lafosse, Y. Wang, and K. Jacobi J. Chem. Phys. 117, 2823 (2002) |
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Stepwise dehydrogenation of NH3 at the Ru(11-20) surface Y. Wang, A. Lafosse, and K. Jacobi Surf. Sci. 507, 773-777 (2002). |
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Energetics and vibrational states for hydrogen on Pt(111) S. C. Badescu, P. Salo, T. Ala-Nissila, S. C. Ying, K. Jacobi, Y. Wang, K. Bedürftig, and G. Ertl Phys. Rev. Lett. 88, 136101 (2002). |
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Adsorption and reaction of CO2 on the RuO2(110) surface Y. Wang, A. Lafosse, and K. Jacobi J. Phys. Chem. B, 106, 5476-5482 (2002). |
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2001 | |
From monomers to ice - new vibrational characteristics of H2O adsorbed on Pt(111) K. Jacobi, K. Bedürftig, Y. Wang and G. Ertl Surf. Sci. 472, 9-20 (2001). |
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The molecular adsorption of CO on the Ru(11-20) surface J. Wang, Y. Wang and K. Jacobi Surf. Sci. 482-485, 153-159 (2001). |
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The Dissociation of CO on the Ru(11-20) surface J. Wang, Y. Wang and K. Jacobi Surf. Sci. 488, 83-89 (2001). |
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Adsorption and thermal dehydrogenation of ammonia on Ru(11-21) K. Jacobi, Y. Wang, C.Y. Fan and H. Dietrich J. Chem. Phys. 115, 4306 (2001). |
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1999 | |
Vibrational and structural properties of OH adsorbed on Pt(111) K. Bedürftig, S. Völkening, Y. Wang, J. Wintterlin, K. Jacobi und G. Ertl J. Chem. Phys. 111, 11147-11154 (1999). |
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