[ National Labs / NASA collaborations ] [ graphene ] [ graphene oxide ] [ silicatene ] [ CNTs ] [ inorganic nanotubes ] [ nanoparticles ] [ model catalysts - metal clusters ] [ metals ] [ metal oxides ] [ semiconductors/silica ] [ alloys ] [ zeolites ] [ Moon dust ] [ Theory ] [ Thiophene ] [ reviews / book chapters ] [ books ] [ Collaborations ] [ Chronological ] (Only the chronological list is complete.) |
Chronological [ 1990-2016 ] - PDF
[ Coauthors / colleagues - 2016 ]
Please note that this is a private web site NOT located at NDSU.
Names highlighted in blue are undergraduate coauthors.
Chronological List of Publications
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2024
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| 141 | Graphene as a Metal-Free Catalyst—Recent Case Studies, Chapter 6 in NanoCarbon: A Wonder Material for Energy Applications, Volume 1: Basics to Advanced Applications for Energy Production |
| 140 | Adsorption and Reaction of Thiophene on Graphene/Ruthenium – Experiment and Theory J. Phys. Chem. C 2024, 128, 3, 1100–1109, by T. Stach (NDSU), Abdolvahab Seif (Padova), Alberto Ambrosetti (Padova), Pier Luigi Silvestrelli (Padova), U. Burghaus (NDSU) DOI: 10.1021/acs.jpcc.3c07544 https://pubs.acs.org/articlesonrequest/AOR-NKXSZYDBVI36EBNKBINK |
2023
| 139 | H2S decomposition on graphene in ultra-high vacuum – experiment and theory, |
2022
| 138 | Perspective article: Can graphene act as a (noble) metal-free catalyst? invited & peer-reviewed, Current Physical Chemistry, 2022, 12, 2-10 by Uwe Burghaus DOI: 10.2174/1877946812666220210142044 https://www.eurekaselect.com/article/120800 [ related seminar talk, ACS 2021 - 18 min /w voice ] - 30 MByte |
2021
| 137 | Surface Science, Nanoscience, Materials |
| 136 | Adsorption and Reaction Kinetics of SO2 on Graphene: an Ultra-high Vacuum Surface Science Study J. Vac. Sci. Technol. A, Vol.39, Issue 4, page 042201 (2021); J. Vac. Sci. Technol. A, 39 (2021) 042201; by Thomas Stach, Melody C. Johnson, Samuel Stevens, Uwe Burghaus [ PowerPoint ] - 4 MByte https://doi.org/10.1116/6.0001055 DOI: 10.1116/6.0001055 |
2020
| 135 | Survey of Physical Chemistry |
| 134 | Adsorption of water on epitaxial graphene, Journal of Materials Research, (2020) by Uwe Burghaus Cambridge University Press, invited review, [ journal home page ] [ link to paper ] (Cambridge) DOI: https://doi.org/10.1557/jmr.2020.206 apparently published online more than once by Cambridge University Press and Springer Press Adsorption of water on epitaxial graphene, Journal of Materials Research, 36(1), 129-139 (2021) by Uwe Burghaus https://doi.org/10.1557/s43578-020-00055-8 (Springer) DOI 10.1557/s43578-020-00055-8 |
2019
| 133 | Adsorption of formic acid on CH3NH3PbI3 lead-halide organic-inorganic perovskites, J. Phys. Chem. C 123 (2019) 22873-22886 by M. T. Nayakasinghe, Y. Han, N. Sivapragasam, D. Kilin, N. Oncel, and U. Burghaus https://pubs.acs.org/doi/10.1021/acs.jpcc.9b03319 DOI 10.1021/acs.jpcc.9b03319 |
| 132 | Water adsorption on Al doped silicatene films grown on Mo(112), Journal of Vacuum Science & Technology A 37, 041507 (2019) by M. T. Nayakasinghe and U. Burghaus https://doi.org/10.1116/1.5100610 DOI: 10.1116/1.5100610 |
| 131 | Gas-surface Interactions on Two-dimensional Crystals, |
2018
| 130 | Unexpected high binding energy of CO2 on CH3NH3PbI3 lead-halide organic-inorganic perovskites via bicarbonate formation, |
| 129 | Desulfurization Related Surface Chemistry on Two-dimensional Silica Films: |
2017
| 128 | Adsorption of alcohols on a two-dimensional SiO2 single crystal – |
| 127 | Effects of the support on the desorption kinetics of n-pentane from graphene: an ultra-high vacuum adsorption study, |
| 126 | Benzene adsorption on two-dimensional silica films – benzene on silicatene, Chemical Physics Letters, 685 (2017) 490-495, by M. T. Nayakasinghe, N. Sivapragasam,and U. Burghaus https://doi.org/10.1016/j.cplett.2017.08.014 |
2016
| 125 | Adsorption Kinetics and Dynamics of CO2 on Ru(0001) Supported Graphene Oxide, Journal of Physical Chemistry C, 2016, 120 (49), pp 28049–28056 by Nilushni Sivapragasam, Mindika T. Nayakasinghe, and Uwe Burghaus DOI: 10.1021/acs.jpcc.6b09573 http://pubs.acs.org/doi/abs/10.1021/acs.jpcc.6b09573 |
Tourists' Guide to Mars |
| 124 | Adsorption of n-butane on graphene/Ru(0001) – a molecular beam scattering study, |
| 123 | Adsorption of water on two-dimensional crystals: water/graphene and water/silicatene (short review) |
| 122 | METAL NANOPARTICLE DEPOSITED INORGANIC NANOSTRUCTURE HYBRIDS, USES THEREOF AND PROCESSES FOR THEIR PREPARATION, |
| 121 | Water adsorption on two-dimensional silica films, |
| 120 | Adsorption kinetics of benzene on CVD graphene: an ultra-high vacuum study, |
2015
| 119 | Problems in Statistical Thermodynamics, |
| 118 | Support effects in the adsorption of water on CVD graphene: an ultra-high vacuum adsorption study, |
2014
| 117 | Reactivity and Morphology of Ni, Mo, and Ni-Mo Oxide Clusters Supported on MCM-48 Towards Thiophene Hydrodesulphurization, |
| 116 | Adsorption of water on graphene/Ru(0001)—an experimental ultra-high vacuum study, |
| 115 | Surface Chemistry of CO2 - Adsorption of Carbon Dioxide on Clean Surfaces at Ultrahigh Vacuum (review) 67 citations (2019) according to Elsevier (incl. self-citations) |
2013
| 114 | Benzene adsorption on Ru(0001) and graphene/Ru(0001) — How to synthesize epitaxial graphene without STM or LEED?, |
| 113 | Shan, J., Chakradhar, A., Komarneni, M., Kadossov, E., Schmidt, J., Burghaus, U., Rosenmann, D., Ocola, L. E., Dhuey, S. Cabrini, S., "Butane adsorption on silica supported MoOx clusters nanofabricated by electron beam lithography" in Nanotechnology for Sustainable Energy, ACS Book Series, printed by Oxford University Press, Y.H. Hu, U. Burghaus, S. Qiao (Eds.) ISBN 978-0-8412-2813-9, (2013) |
| 112 | Carbon Dioxide Adsorption on MgO(001) - CO2 Kinetics and Dynamics, |
| 111 | Surface Science Studies of Carbon Dioxide Chemistry, |
| 110 | Applications of Electron Beam Lithography in Surface Science and Catalysis – Model-Nano-Array Catalysts, by U. Burghaus |
2012
| 109 | Characterization of Ni coated WS2 nanotubes for hydrodesulfurization catalysis, |
| 108 | Rim effects in the adsorption of CO2 on silica supported copper oxide clusters - utilizing electron beam lithography, |
| 107 | Identifying rims along nano-sized clusters as catalytically active sites – the case of CuOx/silica model catalysts nanofabricated by electron beam lithography, |
| 106 | Catalytic decomposition of thiophene by WS2 nanotubes coated with Co nanoparticles, |
| 105 | Adsorption dynamics of CO on silica supported CuOx clusters – |
2011
| 104 | Adsorption of water on a hydrophobic surface - the case of antimony(111), |
| 103 | Adsorption dynamics of CO on copper and gold clusters supported on silica - how special is nanogold?, |
| 102 | Utilizing electron beam lithography for studying methanol synthesis model systems – the case of Cu, CuOx, and Au nano clusters, Preprints of Symposia – American Chemical Society, Division of Fuel Chemistry, 57 (2012) 712 by J. Shan, A. Chakradhar, M. Komarneni, E. Kadossov, J. Schmidt, U. Burghaus, D. Rosenmann, L.E. Ocola, S. Dhuey, S. Cabrini |
| 101 | Adsorption dynamics of CO on silica-supported Cu clusters – a molecular beam scattering study, Journal of Physical Chemistry C, 115 (2011) 16590-16597, by M. Komarneni, J. Shan, and U. Burghaus |
| 100 | Adsorption and dissociation kinetics of alkanes on CaO(100), Surface Science 605 (2011) 1534-1540, by A.Chakradhar, Y. Liu, J. Schmidt, E. Kadossov, and U. Burghaus |
| 99 | Adsorption Kinetics of Small Molecules on Selenium Foil, |
2010
| 98 | Site specific surface chemistry on nanotubes, Israel Journal of Chemistry, (invited & peer reviewed), 50 (2010) 449–452, by U. Burghaus, A. Zak, and R. Rosentsveig |
| 97 | Preparation and Characterization of Nanomaterials for Sustainable Energy Production |
| 96 | Bond activation in thiophene and catalyst poisoning – nanosize Mo clusters supported on silica for desulfurization catalysis, ACS proceedings division of fuel chemistry, Boston, Am. Chem. Soc., Div. Fuel Chem. 55 (2010) 594 by E. Kadossov, M. Komarneni, J. Justin, U. Burghaus |
| 95 | Effect of carbon nanotubes crystal structure on adsorption kinetics of small molecules – an experimental study utilizing ultra-high vacuum thermal analysis techniques, |
| 94 | Adsorption of thiophene on silica supported Mo clusters, Surface Science 604 (2010) 1221-1229 |
| 93 | Adsorption kinetics and dynamics of CO on silica supported Au nanoclusters-utilizing physical vapor-deposition and electron beam lithography Journal of Molecular Catalysis A: Chemical 321 (2010) 101-109 |
| 92 | Adsorption dynamics of CO on silica supported gold clusters – cluster size effects in molecular beam scattering experiments, |
2009
| 91 | Gas-surface interactions with nanocatalysts: particle size effects in the adsorption dynamics of CO on supported gold clusters, Chemical Physics Letters 483 (2009) 250-253 by E. Kadossov, J. Justin, M. Lu, D. Rosenmann, L.E. Ocola, S. Cabrini, U. Burghaus |
| 90 | Adsorption and reaction kinetics of small organic molecules on WS2 nanotubes: an ultra-high vacuum study, Chemical Physics Letters 479 (2009) 109-112 by M. Komarneni, A. Sand, P. Nevin, A. Zak, U. Burghaus |
| 89 | Surface science perspective of carbon dioxide chemistry - adsorption kinetics and dynamics of CO2 on selected model surfaces, Catalysis Today 148 (2009) 212-220 (invited) by U. Burghaus |
| 88 | Multi-site kinetic Monte Carlo simulations of thermal desorption spectroscopy data, Surface Science 603 (2009) 2494-2501 by E. Kadossov, U. Burghaus |
| 87 | Possible effect of carbon nanotube diameter on gas-surface interactions – the case of benzene, water, and n-pentane adsorption on SWCNTs at ultra-high vacuum conditions, Chemical Physics Letters 476 (2009) 227-231, by M. Komarneni, A. Sand, J. Goering, U. Burghaus, M. Lu, L. Veca, Ya-Ping Sun |
| 86 | Interaction of combustion gases with a CaO(100) surface: adsorption kinetics and dynamics, ACS proceedings division of fuel chemistry, Salt Lake City, Am. Chem. Soc., Div. Fuel Chem. 54 (2009) 268, by E. Kadossov, M.R. Hoffmann, U. Burghaus |
| 85 | Adsorption kinetics of methanol in carbon nanotubes revisited - solvent effects and pitfalls in ultra-high vacuum surface science experiments, Chemical Physics Letters 473 (2009) 131-134, by M. Komarneni, A. Sand, J. Goering, U. Burghaus |
| 84 | Adsorption kinetics of small organic molecules on thick and thinner layers of carbon nanotubes, Chemical Physics Letters 470 (2009) 300-303 by M. Komarneni, A. Sand, M. Lu, U. Burghaus |
| 83 | Adsorption of thiophene on inorganic MoS2 fullerene-like nanoparticles, Catalysis Letters 129 (2009) 66-70, by M. Komarneni, A. Sand, U. Burghaus |
| 82 | Gas-carbon nanotubes interactions: a review of ultra-high vacuum surface science studies on CNTs, Chapter 1 (page 1-58) in "Carbon Nanotubes - Research Trends", Ed. Avery P. Ottenhouse, 2009, publisher NOVA Science (NY) ISBN 978-1-60692-236-1 by U. Burghaus https://www.novapublishers.com/catalog/product_info.php?products_id=8363 |
2008
| 81 | Adsorption kinetics and dynamics of CO and CO 2 on FeOx nanoclusters: DFT and molecular beam scattering, ACS proceedings division of fuel chemistry, ISSN 1521-4648 53 (2008) 855-856, by E. Kadossov, U. Burghaus, M.R. Hoffmann |
| 80 | Adsorption of water on JSC-1A (simulated moon dust samples) - a surface science study, Surface and Interface Analysis 40 (2008) 1423-29 by J. Goering, Shweta Sah, U. Burghaus (NDSU)and K.W. Street, Jr. (NASA-Glenn) NASA internal report see NASA TM-2008-215279 |
| 79 | Reactive and non-reactive interactions of thiophene with WS2 fullerene-like nanoparticles: an ultra-high vacuum surface chemistry study, by J. Goering, U. Burghaus, B.W. Arey, O. Eidelman, A. Zak, R. Tenne Catalysis Letters, 125 (2008) 236-242 |
| 78 | Unexpected bond activation of small organic molecules on a metal oxide - butane/CaO(100), by E. Kadossov, U. Burghaus Chemical Communications (2008) 4073-4075 |
| 77 | Adsorption kinetics of alcohols on single wall carbon nanotubes- an ultra high vacuum surface chemistry study, Journal of Physical Chemistry C, 112 (2008) 10114-10124 by J. Goering, E. Kadossov, U. Burghaus |
| 76 | Adsorption kinetics and dynamics of CO, NO, and CO2 on reduced CaO(001), Journal of Physical Chemistry C, 112 (2008) 7390-7400 by E. Kadossov, U. Burghaus |
| 75 | Adsorption kinetics and dynamics of small organic molecules on a silica wafer: butane, pentane, nonane, thiophene, and methanol adsorption on SiO2/Si(111), Applied Surface Science 254 (2008) 5271-5275 by S. Funk, J. Goering, U. Burghaus |
| 74 | Adsorption dynamics and kinetics of CO2 on Fe/FeOx nanoclusters supported on HOPG, Surface and Interface Analysis 40(2008) 893-898, by E. Kadossov, U. Burghaus |
| 73 | Molecular beam scattering of CO on iron oxide clusters supported on graphite (HOPG) Surface Science 602 (2008) 811-818, by E. Kadossov, J. Goering, U. Burghaus |
| 72 | CO adsorption on FeOx nano-clusters supported on HOPG - effect of oxide formation on catalytic activity, Catalysis Letters 120 (2008) 179-183, by E. Kadossov, S. Funk, U. Burghaus |
| 71 | Reactivity screening of anatase TiO2 nanotube arrays and antase thin films: a surface chemistry point of view, by S. Funk, B. Hokkanen, T. Nurkic, J. Goering, E. Kadossov, U. Burghaus (NDSU) A. Ghicov, P. Schmuki (Nuernberg-Erlangen University) Z.Q. Yu, S. Thevuthasan, L.V. Saraf (PNNL) In "Nanoparticles: Synthesis, Stabilization,Passivation and Functionalization", Eds., R. Nagarajan and T. A. Hatton, ACS Symposium Series 996, American Chemical Society, Washington DC., Chapter 11 ISBN 978-0-8412-6969-9 |
2007
| 70 | Adsorption of thiophene on single-walled carbon nanotubes (CNTs), Chemical Physics Letter 447 ( 2007) 121-126 by J. Goering, U. Burghaus |
| 69 | Adsorption kinetics of alkanes on TiO2 nanotubes array - structure-activity relationship, Surface Science 601 (2007) 4620-4628, by B. Hokkanen, S. Funk, U. Burghaus (NDSU), A. Ghicov, P. Schmuki (Nuernberg-Erlangen University) |
| 68 | Molecular beam scattering of linear and branched butane on graphite (HOPG), Surface Science 601 (2007) 3421-3425, by E. Kadossov, J. Goering, U. Burghaus |
| 67 | CO oxidation on anatase TiO2 nanotubes array and the effect of defects, Catalysis Letters 118 (2007) 118-122 by S. Funk and U. Burghaus |
| 66 | Methanol adsorption in carbon nanotubes, by U. Burghaus,1 D. Bye, 2 K. Cosert,2 J. Goering,1A. Guerard,2 E. Kadossov, 1E. Lee,1 Y. Madoyama,2 N. Richter, 1 E. Schaefer,2 J. Smith,2 D. Ulness, 2 and B. Wymore1 1) NDSU 2) Concordia College Nanoscience teaching project Chemical Physics Letters 442(2007) 344-347 |
| 65 | Adsorption of iso-/n-butane on an anatase thin film: a molecular beam scattering and TDS study, Catalysis letters 116 (2007) 9-14, J. Goering, E. Kadossov, U. Burghaus (NDSU) Z.Q. Yu, S. Thevuthasan, L.V. Saraf (PNNL) |
| 64 | Adsorption dynamics of alkanes on single wall carbon nanotubes: a molecular beam scattering study, Journal of Physical Chemistry C 111 (2007) 8043-8049 by S. Funk, U. Burghaus (NDSU) B. White, S. O'Brian, N.J. Turro (Columbia University) |
| 63 | Unexpected adsorption of oxygen on TiO2 nanotube arrays - influence of crystal structure, Nano Letters 7 (2007) 1091-1094 by S. Funk, B. Hokkanen, U. Burghaus (NDSU) A. Ghicov, P. Schmuki (Erlangen-Nuernberg University) |
| 62 | CO2 adsorption on Cr(110) and Cr2O3(0001)/Cr(110), Applied Surface Science 253 (2007) 7108-7114, by S. Funk, T. Nurkic, B. Hokkanen, U. Burghaus |
| 61 | Reactivity screening of silica surfaces Applied Surface Science 253 (2007) 4860-4865, by S. Funk, T. Nurkic, U. Burghaus |
2006
| 60 | Effect of Surface Defects in Heterogeneous Catalysis (review) Research Trends in Physical Chemistry 11 (2006) 1-19 by U. Burghaus |
| 59 | Adsorption of CO2 on oxidized, defected, hydrogen, and oxygen covered rutile (1x1)-TiO2 (110), PCCP - Physical Chemistry Chemical Physics, 8 (2006) 4805-4813, by S. Funk, U. Burghaus |
| 58 | Adsorption of iso-butane on ZnO(0001)-Zn, Surface Science,600 (2006) 4855-4859, by J. Wang, B. Hokkanen, and U.Burghaus. |
| 57 | Effect of oxygen vacancy sites on CO2 adsorption dynamics: the case of rutile (1x1)-TiO2(110), Chemical Physics Letters 422 (2006) 461-465, by S. Funk, B. Hokkanen, E. Johnson , and U.Burghaus |
| 56 | CO2 adsorption on the bimetallic Zn-on-Cu(110) system, by S. Funk, B. Hokkanen, U. Burghaus (NDSU) G. Bozzolo (Ohio Aerospace Institute and NASA Glenn Research Center) J.E. Garcés (Centro Atómico Bariloche, CNEA, 8400 Bariloche, Argentina) Surface Science 600 (2006) 1870-1876 |
| 55 | A Practical Guide to Monte Carlo Simulations and Classical Molecular www.novapublishers.com Program Source Codes (ASCII 180 kByte) |
| 54 | Adsorption dynamics of CO2 on Cu(110): a molecular beam study, Surface Science 600 (2006) 583-590, by S. Funk, B. Hokkanen , J. Wang, U. Burghaus (NDSU) G. Bozzolo (Ohio Aerospace Institute and NASA Glenn Research Center) J.E. Garcés (Centro Atómico Bariloche, CNEA, 8400 Bariloche, Argentina) |
| 53 | Adsorption of carbon dioxide and CO on copper nanoparticle-based ZnO methanol synthesis model catalysts, ACS meeting in Atlanta 2006, Preprints of Symposia - American Chemical Society, Division of Fuel Chemistry (2006), 51(1), 314-315 ISSN:1521-4648 by S. Funk, B. Hokkanen, E. Johnson, J. Wang,and U. Burghaus |
| 52 | Atomistic modeling of Zn deposition on the low index faces of Cu, Surface Science 600 (2006) 195-204 by S. Funk (NDSU), G. Bozzolo (Ohio AerospaceInstitute and NASA Glenn Research Center) J.E. Garcés (Centro Atómico Bariloche, CNEA, 8400 Bariloche, Argentina) U. Burghaus (NDSU) |
2005
| 51 | Adsorption dynamics of CO2 on copper precovered ZnO(0001)-Zn: a molecular beam scattering and thermal desorption spectroscopy study, Journal of Chemical Physics 123 (2005) 204710, J. Wang, S. Funk, U. Burghaus. |
| 50 | Adsorption of CO on the copper precovered ZnO(0001) surface: a molecular beam scattering study, Journal of Chemical Physics 123 (2005) 184716, J. Wang, U. Burghaus. |
| 49 | Indications for Metal Support Interactions: The case of CO2 Adsorption on Cu/ZnO(0001), Catalysis Letters 103 (2005) 219 J. Wang, S. Funk, and U. Burghaus. |
| 48 | Particle Size Effects in The Adsorption Dynamics of CO: The Structure-Activity Relationship in The Case of Cu/Zn-ZnO, Chemical Physics Letters 410 (2005) 131-135, J. Wang, E. Johnson, and U. Burghaus. |
| 47 | Adsorption of CO2 on Pristine Zn-ZnO(0001) and Defected Zn-ZnO(0001): A Thermal Desorption Spectroscopy Study, Surface Science 577 (2005) 158-166, by J. Wang, B. Hokkanen, U. Burghaus. |
| 46 | Structure-Activity Relationship : The Case of CO2 Adsorption on H/Zn-ZnO(0001), Chemical Physics Letters 403 (2005) 42-46, by J. Wang, U. Burghaus. |
| 45 | Adsorption Dynamics of CO2 on Zn-ZnO: a Molecular Beam Study, Journal of Chemical Physics 122 (2005) 044705-11, by J. Wang, U. Burghaus. |
2004
| 43 | The adsorption of hydrogen on the rutile TiO2(110) surface, Phys. Chem. Chem. Phys., 6 (2004) 4203-4207, by M. Kunat, U. Burghaus, and Ch. Wöll. |
2003
| 42 | The interaction of water withtheoxygen-terminated, polar surface of ZnO, Journal of Physical Chemistry B 107 (2003) 14350-14356, by M. Kunat, St. Gil Girol, U. Burghaus, Ch. Wöll. |
| 41 | Adsorption of hydrogen on the polar O-ZnO surface: a molecular beam study, PCCP - Phys. Chem. Chem. Phys. 5 (2003) 4962-4967 by M. Kunat, U. Burghaus, Ch. Wöll. |
| 40 | Adsorption of CO on rutile (1x1)-TiO2(110): amolecular beamstudy, Surface Science 544 (2003) 170-182, by M. Kunat, U. Burghaus. |
| 39 | Determination of lateral Xe-Xe potential in a single xenon layer adsorbed on Cu(110) from surface phonon dispersion measurements, Phyical Review B 68 (2003) 075403--075403-8 by Ch. Boas, M. Kunat, U. Burghaus, B. Gumhalter, Ch. Wöll |
| 38 | Coadsorption of hydrogen and CO on Zn-ZnO: a molecular beam study, Journal of Vacuum Science and Technology A21 (2003) 1322-1325, M. Kunat, U. Burghaus*. |
| 37 | Kinetic Monte Carlo Simulation of adsorption probabilities: the auto-catalytic adsorption phenomenon, Journal of Vacuum Science and Technology A21 (2003) 1284-1289, by J. Stephan, U. Burghaus*. |
| 36 | Stabilization of polar ZnO-surfaces: Validating microscopic models by using CO as a probe molecule, Physical Review Letters 90(2003) 106102--106102-4, by V. Staemmler, K. Fink, B. Meyer, D. Marx, M. Kunat, S.Gil Girol, U. Burghaus, Ch. Wöll. |
| 35 | CO oxidation on Ag(110): surface reconstruction contra sub-surface oxygen, Surface Review and Letters 10 (2003) 39-48, by U. Burghaus*, A. Böttcher, and H. Conrad. |
| 34 | Monte Carlo Simulations of adsorption probabilities: the case of CO/disordered-Cu(110) and CO/O-Ir(110), Surface Review and Letters 10 (2003) 7-12, by U. Burghaus. |
2002
| 33 | Stability of polar surfaces of ZnO: a reinvestigation by He atom scattering, Rapid Communication PhysicalReview B66 (2002) 081402--081402-3, by M. Kunat, St. Gil-Girol, Th. Becker, U. Burghaus, Ch. Wöll. |
| 32 | Effect of defects and pre-adsorbates on adsorption probabilities: a Monte Carlo Simulation point of view Surface Science 507-510 (2002) 736-741, by J. Stephan, U. Burghaus* |
2001
| 31 | Adsorption dynamics in the case of pre-adsorbates:measuring methods and precursor models, Research Trends in Physical Chemistry, (review) Vol 8 (2001) 21-48 by U. Burghaus. |
| 30 | Monte Carlo Simulation of the adsorbate assisted adsorption in the case of CO/ZnO, Surface Review and Letters 8 (2001) 353-360, by U. Burghaus. |
| 29 | Oxygen interaction with disordered andnanostructured Ag(001) surfaces, Journal of Chemical Physics 115(2001) 3346-3355, by L. Vattuone, U. Burghaus, L. Savio, D.Zampa, M. Rocca, F.Buatier de Mongeot, G. Costantini, C. Boragno, and U. Valbusa. |
| 28 | Interaction of hydrogen with metal oxides: The case of the polar ZnO(0001)-surface, Surface Science. 486 (2001) L502-506 by Th. Becker, St. Hövel, M. Kunat, Ch. Boas, U. Burghaus, and Ch. Wöll. |
| 27 | Comment on "Effect of the structural anisotropy and lateral strain on the surface phonons of monolayer xenon onCu(110)", Physical Review B 64 (2001) 64, 037401, by Ch. Boas, Th. Becker, M. Kunat, U. Burghaus, and Ch. Wöll. |
| 26 | Adsorption dynamics of CO on Cu(110): a molecular beam study, Surface Science 474 (2001) 114-128 by M. Kunat, Ch. Boas, Th. Becker, U. Burghaus*, and Ch. Wöll. |
2000
| 25 | Adsorbate assisted adsorption: a Monte Carlo simulation, Proceedings of the 9th International Symposium on Heterogeneous Catalysis, Varna (Bulgaria), (2000) by U.Burghaus*, L. Vattuone, and I. Kobal. |
| 24 | Adsorption dynamics of CO on the polar surfaces of ZnO, Journal of Chemical Physics 113 (2000) 6334-6342, by Th. Becker, M. Kunat, Ch. Boas, U. Burghaus*, and Ch. Wöll. |
| 23 | Low energy dynamics of alkanethiols adsorbedon copper, Surface Science 462 (2000) 135-142, by S. Vollmer, P. Fouquet, G. Witte*, Ch.Boas, M. Kunat, U. Burghaus, and Ch. Wöll. |
| 22 | Adsorption probability of CO on ZnO a molecular beam study. Journal of Vacuum Science and Technology A 18(4)(2000) 1089-1092, by Th. Becker, Ch. Boas, U. Burghaus*, Ch. Wöll. |
| 21 | Transient CO oxidation on Pd(111) and Pd(110), Surface Science 454-456 (2000) 326-330, by U.Burghaus*, I.Z. Jones, and M. Bowker. |
| 20 | Tuning surface reactivity by in situ surface nanostructuring , Journal of Chemical Physics 112 (2000) 6840-6843, by G. Costantini, F. Buatier de Mongeot, S. Rusponi, C. Boragno, U. Valbusa, L. Vattuone, U. Burghaus, L. Savio, and M. Rocca. |
| 19 | Phase Transition of dissociatively adsorbed oxygen on Ag(001), Physical Review B61 (2000) 213-227, by M. Rocca, L. Savio, L. Vattuone, U. Burghaus, V. Palomba, N.Novelli, F. Buatier de Mongeot, U. Valbusa, R. Gunnella, G. Comelli, A. Baraldi, S. Lizzit, andG. Paolucci. |
| 18 | Adsorption probability of CO on a metal-oxide:The case of oxygen-terminated ZnOand the influence of defects, Physical Review B61 (2000) 4538-4541, by Th. Becker, Ch. Boas, U. Burghaus*, Ch. Wöll. |
| 17 | Chemisorption of Isobutane and Neopentane on Ir(110), Surface Science 446 (2000) 46-54, by J. Ding, U. Burghaus, and W.H. Weinberg. |
1999
| 16 | Carbon-13 Kinetic Isotope Effects in CO Oxidation by Ag, Langmuir 15 (1999) 5825-5827 (ISSACH-3), by I. Kobal, U. Burghaus, M. Senegacnik,and N. Ogrinc. |
1998
| 15 | Carbon-13 Kinetic Isotope Effects in the Catalytic Oxidation of CO over Ag, Journal of Physical Chemistry B 102 (1998) 6787-6791, by I. Kobal, U. Burghaus, M. Senegacnik, and N. Ogrinc. |
| 14 | Breakdown of normal energy scaling at high impact energyfor O2 on Ag(001), Surface Science Letters 408 (1998) L693-L697, by L. Vattuone, U. Burghaus, U. Valbusa, and M. Rocca. |
| 13 | Carbon monoxide oxidation on Ir(110), Journal of Vacuum Science and Technology A 16(3) May/Jun(1998) 1010-1013, by U. Burghaus, J. Ding, and W.H. Weinberg. |
| 12 | Self-accelerating kinetics of CO2 formation on Ir(110), Surface Science 396 (1998) 273-283, by U. Burghaus, J. Ding, and W.H. Weinberg. |
| 11 | Collision induced desorption and dissociation of O2 chemisorbed on Ag(001), Journal of Chemical Physics 109(1998) 2490-2502, by L. Vattuone, P. Gambardella, U. Burghaus, F. Cemic, A. Cupolillo, U. Valbusa, and M. Rocca. |
1997
| 10 | Effect of preadsorbed oxygen on the adsorptionof CO on Ir(110), Surface Science 384 (1997) L869, by U. Burghaus*, J. Ding, and W.H. Weinberg. |
| 9 | HREELS study of CO oxidation on Ag(100) by O2 or O, Surface Science 374 (1997) 1, by U. Burghaus, L. Vattuone, P. Gambardella, and M. Rocca. |
| 8 | CO oxidation by atomically adsorbed oxygen on Ag(110) inthe temperaturerange 100 - 300 K, Surface Science 370 (1997) 17, by U. Burghaus, H. Conrad. |
1996
| 7 | Evidence for the oxidation of CO by molecular oxygen adsorbed on Ag(110), Surface Science 364 (1996) 109, by U. Burghaus, H. Conrad. |
| 6 | The influence of surface reconstructions on the CO oxidation reaction rate forthe O/Ag(110)surface, Surface Science 352-354 (1996) 201, by U. Burghaus, H. Conrad. |
| 5 | Oxidation of CO by molecular oxygen adsorbed on Ag(110), Surface Science 352-354 (1996) 253, by U. Burghaus, H. Conrad. |
1995
| 4 | Evidence for two kinetically distinct atomic oxygen species on Ag(110): A molecular beam study of the CO oxidationreaction, Surface Science338 (1995) L869, by U. Burghaus, H. Conrad. |
| 3 | A Molecular Beam Relaxation Spectroscopy Study of CO Adsorption on Ag(110) and Pt(111), Surface Science 331-333 (1995) 116-120, by U. Burghaus, H. Conrad. |
1990
| 2 | The Ionic-to-Neutral transition in Alkali Metal Adsorption: Potassium on Ag(100), Surface Science 234 (1990) L271-L273, by H.B. Nielsen, U. Burghaus, G. Broström, and E. Matthias. |
| 1 | Electronic Structure of K on Ag(100), Vacuum41 (1990) 558-560, by H.B. Nielsen, U. Burghaus, G. Broström, and E. Matthias. |