A01 | Fermi level engineering of doped perovskites: From the dilute limit to phase formation |
Karsten Albe, Hongbin Zhang Department of Materials and Earth Sciences TU Darmstadt |
A02 | Polaronic contributions to Fermi level tolerance in perovskite-type oxide electroceramics |
Karsten Albe Department of Materials and Earth Sciences TU Darmstadt |
A03 | Fermi level engineering in oxygen transport membranes |
Anke Weidenkaff Department of Materials and Earth Sciences TU Darmstadt |
A04 | Fermi level engineering in (non)-degenerate semiconducting perovskite-type oxynitride photoabsorbers |
Anke Weidenkaff Department of Materials and Earth Sciences TU Darmstadt |
A05 | Fermi energy guided topochemical reaction strategies for electrocatalytically active Ba-rich transition metal oxyfluorides, oxyhydroxides and their combination |
Oliver Clemens Institute for Materials Science Uni Stuttgart |
A06 | Fermi level engineering for tuning piezoelectric properties |
Jurij Koruza Institute for Chemistry and Technology of Materials TU Graz |
A07 | Charge transition levels and Fermi energy limits in functional oxides |
Andreas Klein Department of Materials and Earth Sciences TU Darmstadt |
B01 | Fermi level engineering of grain boundaries in perovskite oxides by first-principles calculations |
Karsten Albe Department of Materials and Earth Sciences TU Darmstadt |
B02 | Understanding dopant-controlled modification of electronic structure and reactivity of perovskite surfaces using ab initio calculations |
Jochen Rohrer Department of Materials and Earth Sciences TU Darmstadt |
B03 | Impact of Fermi energy on microstructure evolution: An electro-chemo-mechanical phase-field study |
Bai-Xiang Xu Department of Materials and Earth Sciences TU Darmstadt |
B04 | Influence of bulk electronic structure on grain boundary properties in perovskite oxides |
Wolfgang Rheinheimer Institute for Energy and Climate Research Forschungszentrum Jülich Andreas Klein Department of Materials and Earth Sciences TU Darmstadt |
B05 | Probing the electrical activity of grain boundaries in acceptor-doped perovskite oxides through ion transport experiments |
Roger De Souza Institute for Physical Chemistry RWTH Aachen University |
B06 | Real-space structure and electronic structure of grain boundaries in perovskites |
Christian Kübel Department of Materials and Earth Sciences TU Darmstadt |
B07 | Perovskite-based high performance electrocatalysts for the oxygen evolution reaction: Fundamental insight into bulk and interface electronic structure towards materials design |
Jan Philipp Hofmann Department of Materials and Earth Sciences TU Darmstadt |
B08 | Enhancing oxygen and hydrogen surface exchange reactions by Fermi level engineering |
Andreas Klein, Jan Philipp Hofmann Department of Materials and Earth Sciences TU Darmstadt |
Z01 | Central Tasks of the Collaborative Research Center |
Andreas Klein Department of Materials and Earth Sciences TU Darmstadt |
Z02 | Near-ambient pressure photoelectron spectroscopy for Fermi level engineering |
Jan Philipp Hofmann, Andreas Klein Department of Materials and Earth Sciences TU Darmstadt |
Z03 | Structural characterization using 2D and 3D electron diffraction |
Ute Kolb Department of Chemistry Johannes Gutenberg-Universität Mainz |
Z04 | Integrated Research Training Group “Junior FLAIR” (MGK) |
Bai-Xiang Xu Department of Materials and Earth Sciences TU Darmstadt |
Z05 | Sustainable Research Data Management (INF) |
Hongbin Zhang, Christian Kübel Department of Materials and Earth Sciences TU Darmstadt |