Valtiner, M.; Grundmeier, G.: Towards a deeper understanding of molecular adhesion mechanisms by a combined approach of single molecule adhesion and DFT studies. 23. Workshop “Novel Materials and Superconductors”, Universitätssportheim Planneralm, Donnersbach, Austria (2008)
Valtiner, M.; Grundmeier, G.: Molecular Adhesion Mechanisms on Single Crystalline, Hydroxide Stabilized ZnO(0001) Surfaces. MRS fall meeting 2007, Boston, MA, USA (2007)
Valtiner, M.; Grundmeier, G.: Towards a better understanding of adhesion by a combined approach of single molecule adhesion and DFT studies. ECASIA 07, Brussels, Belgium (2007)
Todorova, M.; Valtiner, M.; Neugebauer, J.: Stabilisation of polar ZnO(0001) surfaces in dry and humid environment. FIESTAE - Frontiers in Interface Science: Theory and Experiment, Berlin, Germany (2011)
Todorova, M.; Valtiner, M.; Grundmeier, G.; Neugebauer, J.: Temperature Stabilised surface reconstructions at polar ZnO(0001). Gordon Research Seminar ''Corrosion - Aqueous'', Colby-Sawyer College, New London, NH, USA (2010)
Keil, P.; Valtiner, M.; Grundmeier, G.: In-situ XAS investigations of the ZnO(0001)–Zn surface and electrolyte interface during dissolution and as a function of pH. Gordon Research Conference, Science of Adhesion, Colby-Sawyer College, New London, NH, USA (2009)
Grundmeier, G.; Valtiner, M.: Nanoscopic understanding of the surface chemistry and stability of polar ZnO(0001)-Zn surfaces in aqueous solutions. The 59th Annual Meeting of the International Society of Electrochemistry, Seville, Spain (2008)
Valtiner, M.; Grundmeier, G.: Acidic dissolution mechanism, pH-dependent stability and adhesion of single molecules studied on single crystalline ZnO(0001)–Zn model surfaces by in-situ AFM studies. Gordon Conference Graduate Research Seminar on Aqueous Corrosion, Colby Sawyer College, New London, NH, USA (2008)
Valtiner, M.; Grundmeier, G.: Acidic dissolution mechanism, pH-dependent stabilization and adhesion of single molecules on single crystalline ZnO(0001)–Zn model surfaces studied by in-situ AFM and DFT simulation. PSI-k Summerschool for Modern Concepts for Creating and Analyzing Surfaces and Nanoscale Materials, Sant Feliu de Guixols, Spain (2008)
Valtiner, M.; Grundmeier, G.: Study of Molecular Adhesion on ZnO(0001) by means of Single Molecule Adhesion Studies. 15th WIEN2k workshop, Vienna, Austria (2008)
Valtiner, M.; Keil, P.; Grundmeier, G.: The structure of the ZnO(0001)-Zn surface and interface during acidic dissolution. HASYLAB users' meeting 2007 "Research with Synchrotron Radiation and FELs, Hamburg, Germany (2007)
Valtiner, M.: Non-linear optics. Lecture: Specialized class on “Non-linear optics”, RUB (substituted for Prof. K. Morgenstern), SS 2014, Bochum, Germany, April 01, 2014 - September 30, 2014
Erbe, A.; Valtiner, M.; Muhler, M.; Mayrhofer, K. J. J.; Rohwerder, M.: Physical chemistry of surfaces and interfaces. Lecture: Course for PhD students of the IMPRS Surmat, Ruhr-Universität Bochum, Bochum, Germany, October 01, 2013 - October 31, 2013
Hu, Q.: A Contribution to Elucidate Interfacial Electric Double Layer Structures and Their Effects on Tribological Phenomena Using Force Microscopy. Dissertation, Fakultät für Maschinenbau der Ruhr-Universität Bochum, Bochum, Germany (2018)
Utzig, T.: A contribution to understanding interfacial adhesion based on molecular level knowledge. Dissertation, Fakultät für Maschinenbau, Ruhr-Universität Bochum, Bochum, Germany (2016)
Valtiner, M.; Grundmeier, G.: Atomistic Understanding of Structure, Stability and Adhesion at ZnO/Electrolyte Interfaces. Dissertation, Technische Universität Wien, Fakultät der technischen Chemie, Wien, Austria (2008)
Möllmann, V.; Keil, P.; Valtiner, M.; Wagner, R.; Lützenkirchen-Hecht, D.; Frahm, R.; Grundmeier, G.: Structural properties of Ag@TiO2 nanocomposites measured by means of refection mode XAS measurements at beamline 8. (2008)
Valtiner, M.; Keil, P.; Grundmeier, G.: In-situ reflection mode XAS measurements of non equilibrium dissolution processes in aqueous electrolytes at beamline E2. (2007)
International researcher team presents a novel microstructure design strategy for lean medium-manganese steels with optimized properties in the journal Science
The focus lies on the investigation of the fracture properties of materials down to the individual microstructural length scale, with special attention on grain/phase boundaries or material interfaces, while considering the role of crystallography, chemistry and non-ambient conditions such as high temperatures and cryogenic conditions on fracture.
Within this project we investigate chemical fluctuations at the nanometre scale in polycrystalline Cu(In,Ga)Se2 and CuInS2 thin-flims used as absorber material in solar cells.
The thorough, mechanism-based, quantitative understanding of dislocation-grain boundary interactions is a central aim of the Nano- and Micromechanics group of the MPIE [1-8]. For this purpose, we isolate a single defined grain boundary in micron-sized sample. Subsequently, we measure and compare the uniaxial compression properties with respect to…
The goal of this project is the investigation of interplay between the atomic-scale chemistry and the strain rate in affecting the deformation response of Zr-based BMGs. Of special interest are the shear transformation zone nucleation in the elastic regime and the shear band propagation in the plastic regime of BMGs.
Within this project, we will use an infra-red laser beam source based selective powder melting to fabricate copper alloy (CuCrZr) architectures. The focus will be on identifying the process parameter-microstructure-mechanical property relationships in 3-dimensional CuCrZr alloy lattice architectures, under both quasi-static and dynamic loading…
The fracture toughness of AuXSnY intermetallic compounds is measured as it is crucial for the reliability of electronic chips in industrial applications.
The objective of the project is to investigate grain boundary precipitation in comparison to bulk precipitation in a model Al-Zn-Mg-Cu alloy during aging.