Uwe Burghaus
North Dakota State University
100 Papers
1.3K Citations
Uwe Burghaus is an academic researcher from North Dakota State University. The author has contributed to research in topics: Adsorption & Thermal desorption spectroscopy. The author has an hindex of 24, co-authored 99 publications. Previous affiliations of Uwe Burghaus include Lawrence Berkeley National Laboratory & Ruhr University Bochum.
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Papers
Preparation and Characterization of Nanomaterials for Sustainable Energy Production
TL;DR: Some of the most exciting advances presented at the symposium on nanotechnology for sustainable energy and Fuels are highlighted, including the preparation and characterization of nanomaterials for clean fuel production, CO(2) capture, solar cells and solar fuels, energy conversion andstorage materials, hydrogen storage materials, and fuel cells.
Stabilization of polar ZnO surfaces: validating microscopic models by using CO as a probe molecule.
Volker Staemmler,Karin Fink,Bernd Meyer,Dominik Marx,M. Kunat,S. Gil Girol,Uwe Burghaus,Ch. Wöll +7 more
TL;DR: Combining several types of first-principles calculations with advanced molecular beam methods, this study is able to provide conclusive evidence that the polar O-terminated surface of ZnO is either reconstructed or hydrogen covered.
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Surface chemistry of CO2 – Adsorption of carbon dioxide on clean surfaces at ultrahigh vacuum
TL;DR: A more comprehensive review of the surface science literature can be found in this article, which describes surface phenomena and characterization strategies highlighting similarities and differences, instead of providing only a list of system-specific information.
171
Interaction of hydrogen with metal oxides : the case of the polar ZnO(0001) surface
TL;DR: In this article, the formation and structure of hydrogen adlayers on the Zn-terminated ZnO(0, 0,0, 1) surface have been investigated by various analytical techniques.
95
Unexpected adsorption of oxygen on TiO2 nanotube arrays: influence of crystal structure.
TL;DR: In this paper, the authors present kinetics data of O2, n/iso-butane, CO2, and CO adsorbed at ultrahigh vacuum conditions on TiO2 nanotube arrays produced by electrochemical anodization; amorphous and polycrystalline (anatase and mixed anatase/rutile) TiNTs have been studied addressing structure−activity relationships.
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