Benedikt, U.; Schneider, W.; Auer, A. A.: Oxygen Reduktion Reaction On Pt-Nanoparticles: A Density-Functional Based Study II. Electrochemistry 2010: From Microscopic Understanding to Global Impact, Ruhr-Universität Bochum, Bochum, Germany (2010)
Schneider, W.; Auer, A. A.; Mehring, M.: Interactions of Main Group Elements and Aromatic Systems - A Theoretical Study. STC 2010 - Quantum Chemistry for Large and Complex Systems: From Theory to Algorithms and Applications, Münster, Germany (2010)
Schneider, W.; Benedikt, U.; Auer, A. A.: Oxygen Reduktion Reaction on Pt-Nanoparticles: A Density-Functional Based Study I. Electrochemistry 2010: From Microscopic Understanding to Global Impact, Ruhr-Universität Bochum, Bochum, Germany (2010)
Auer, A. A.: Grundlagen von Elektronenstrukturrechnungen. Lecture: Kompaktkurs "Grundlagen von Elektronenstrukturrechnungen", Institut für Chemie, TU Chemnitz, Germany, April 12, 2010 - July 23, 2010
In this project, links are being established between local chemical variation and the mechanical response of laser-processed metallic alloys and advanced materials.
In this project, we investigate the phase transformation and twinning mechanisms in a typical interstitial high-entropy alloy (iHEA) via in-situ and interrupted in-situ tensile testing ...
Solitonic excitations with topological properties in charge density waves may be used as information carriers in novel types of information processing.
About 90% of all mechanical service failures are caused by fatigue. Avoiding fatigue failure requires addressing the wide knowledge gap regarding the micromechanical processes governing damage under cyclic loading, which may be fundamentally different from that under static loading. This is particularly true for deformation-induced martensitic…
In this project, we employ a metastability-engineering strategy to design bulk high-entropy alloys (HEAs) with multiple compositionally equivalent high-entropy phases.
Low dimensional electronic systems, featuring charge density waves and collective excitations, are highly interesting from a fundamental point of view. These systems support novel types of interfaces, such as phase boundaries between metals and charge density waves.
Oxides find broad applications as catalysts or in electronic components, however are generally brittle materials where dislocations are difficult to activate in the covalent rigid lattice. Here, the link between plasticity and fracture is critical for wide-scale application of functional oxide materials.