Torres, E.; Blumenau, A. T.; Biedermann, P. U.: Steric and Chain Length Effects in the (√(3) x √(3))R30°Structures of Alkanethiol Self-Assembled Monolayers on Au(111). ChemPhysChem 12, pp. 999 - 1009 (2011)
Zuo, J.; Torres, E.: Comparison of Adsorption of Mercaptopropyltrimethoxysilane on Amphiphilic TiO2 and Hydroxylated SiO2. Langmuir 26 (19), pp. 15161 - 15168 (2010)
Torres, E.; Blumenau, A. T.; Biedermann, P. U.: Mechanism for phase transitions and vacancy island formation in alkylthiol/Au(111)self-assembled monolayers based on adatom and vacancy-induced reconstructions. Physical Review B 79 (7), pp. 075440-1 - 075440-6 (2009)
Torres, E.; Biedermann, P. U.; Blumenau, A. T.: High density structures of ethyl-thiol SAM´s on Au(111): A DFT study. SurMat Seminar, Schloß Gnadenthal, Kleve, Germany (2008)
Torres, E.; Biedermann, P. U.; Blumenau, A. T.: The Role of Gold Adatoms in Self-Assembled Monolayers of Thiol on Au(111). 6th Congress of the International Society for Theoretical Chemical Physics, ISTCP-VI, University of British Columbia, Vancouver, Canada (2008)
Blumenau, A. T.; Biedermann, P. U.; Torres, E.: Modelling adhesion and delamination at oxide/polymer interfaces. Multiscale Material Modeling of Condensed Matter, MMM2007, St. Feliu de Guixols, Spain (2007)
Thissen, P.; Özcan, Ö.; Torres, E.; Diesing, D.; Grundmeier, G.: Combining Monte Carlo Kinetics and Density Functional Theory to simulate Temperature Programmed Desorption. American Vacuum Society 54th International Symposium, Seattle, WA, USA (2007)
Biedermann, P. U.; Torres, E.; Blumenau, A. T.: Oxygen Reduction at Thiol/Au(111)SAMs, Atomistic Modelling and Experiment. 212th ECS Meeting, Washington, D.C., USA (2007)
Biederrmann, U. P.; Torres, E.; Blumenau, A. T.: Degradation of Alkanethiol/Au(111) Self-Assembled Monolayers During Oxygen Reduction. 1. Harzer Ab initio Workshop, Clausthal-Zellerfeld, Germany (2006)
Torres, E.; Biederrmann, U. P.; Blumenau, A. T.: A DFT study of Alkanethiol adsorption sites on Au(111) surfaces. A DFT study of Alkanethiol adsorption sites on Au(111) surfaces, Clausthal, Germany (2006)
Torres, E.; Biedermann, P. U.; Blumenau, A. T.: A DFT study of Alkanethiol adsorption sites on Au(111) surfaces. 2nd IMPRS-SurMat Workshop in Surface and Interface Engineering in Advanced Materials, Ruhr-Universität Bochum, Bochum, Germany (2008)
Biedermann, P. U.; Torres, E.; Laaboudi, L.; Isik-Uppenkamp, S.; Rohwerder, M.; Blumenau, A. T.: Cathodic Delamination by a Combined Computational and Experimental Approach: The Aklylthiol/Gold Model System. Multiscale Material Modeling of Condensed Matter, MMM2007, St. Feliu de Guixols, Spain (2007)
Torres, E.: DFT Study of Alkanethiol Self-assembled Monolayers on Gold(111) Surfaces. Dissertation, Ruhr-Universität-Bochum, Fakultät für Physik und Astronomie, Bochum, Germany (2009)
International researcher team presents a novel microstructure design strategy for lean medium-manganese steels with optimized properties in the journal Science
The atomic arrangements in extended planar defects in different types of Laves phases is studied by high-resolution scanning transmission electron microscopy. To understand the role of such defect phases for hydrogen storage, their interaction with hydrogen will be investigated.
The structure of grain boundaries (GBs) is dependent on the crystallographic structure of the material, orientation of the neighbouring grains, composition of material and temperature. The abovementioned conditions set a specific structure of the GB which dictates several properties of the materials, e.g. mechanical behaviour, diffusion, and…
By using the DAMASK simulation package we developed a new approach to predict the evolution of anisotropic yield functions by coupling large scale forming simulations directly with crystal plasticity-spectral based virtual experiments, realizing a multi-scale model for metal forming.
In this project, links are being established between local chemical variation and the mechanical response of laser-processed metallic alloys and advanced materials.
Adding 30 to 50 at.% aluminum to iron results in single-phase alloys with an ordered bcc-based crystal structure, so-called B2-ordered FeAl. Within the extended composition range of this intermetallic phase, the mechanical behavior varies in a very particular way.