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Please note that this is a private web site NOT located at NDSU.
Names highlighted in blue are undergraduate coauthors.
Publications on SiO2 wafer, nanostructures supported on silica, semiconductors
110 | Applications of Electron Beam Lithography in Surface Science and Catalysis – Model-Nano-Array Catalysts, by U. Burghaus |
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 – |
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 |
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 |
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, |
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 |
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 |
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 |
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 |
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 |
61 | Reactivity screening of silica surfaces Applied Surface Science 253 (2007) 4860-4865, by S. Funk, T. Nurkic, U. Burghaus |