Projects
The following individual projects are part of the PP 1613:
- Coordination SPP SolarH2 (Prof. Dr. Wolfram Jaegermann, Darmstadt)
- Ferrites for photoelectrochemical water splitting (Prof. Dr. Detlef Bahnemann, Hannover, Prof. Dr. Thomas Bredow, Bonn, Prof. Dr. Michael Wark, Oldenburg)
- Metal oxide nanostructures for electrochemical and photoelectrochemical water splitting (Prof. Dr. Thomas Bein, München, Prof. Dr. Dina Fattakhova-Rohlfing, München, Prof. Dr. Rossitza Pentcheva, Duisburg, Prof. Dr. Christina Scheu, Düsseldorf)
- Novel thin film composites and co-catalysts for visible light-induced water splitting (Prof. Dr. Malte Behrens, Essen, Prof. Dr. Anna Fischer, Freiburg, Prof. Dr. Martin Lerch, Berlin, PD Dr. Thomas Schedel-Niedrig, Berlin)
- Development of optimum bandgap photoanodes for tandem water-splitting cells based on doped complex metal oxides and III-V semiconductors coupled to water oxidation electrocatalysts (Prof. Dr. Radim Beránek, Bochum, Prof. Dr. Anjana Devi, Bochum, Dr. Rainer Eichberger, Berlin
- Development of catalysts, namely manganese oxides and molybdenum sulphides, for an implementation in a light-driven water-splitting device using a multi-junction solar cell (Prof. Dr. Holger Dau, Berlin, Prof. Dr. Sebastian Fiechter, Berlin, Prof. Dr. Philipp Kurz, Freiburg)
- High-throughput characterization of multinary transition metal oxide and oxynitride libraries. New materials for solar water splitting with improved properties (Prof. Dr. Sebastian Fiechter, Berlin, Prof. Dr.-Ing. Alfred Ludwig, Bochum, Prof. Dr. Wolfgang Schuhmann, Bochum)
- Photoelectrochemical water splitting using adapted silicon based semiconductor multi-junction cell structures (Dr. Friedhelm Finger, Jülich, Prof. Dr. Wolfram Jaegermann, Darmstadt, PD Dr. Bernhard Kaiser, Darmstadt, Prof. Dr. Rolf Schäfer, Darmstadt)
- In-situ environmental TEM studies of electro- and photo-electrochemical systems for water splitting (Prof. Dr. Christian Jooß, Göttingen)
- Quantum chemical and quantum dynamical studies of the photocatalytic water splitting on titanium dioxide surfaces (Prof. Dr. Thorsten Klüner, Oldenburg)
- PhotoElectroChemical appliCation of Uranium oxides for enhanced LIght AbsoRption (PECULIAR) (Prof. Dr. Sanjay Mathur, Köln)
- Sustainable solar energy conversion with defined ferrite nanostructures (Dr. Roland Marschall, Gießen)
- Zn-doped Gallium Oxynitride Nanoparticles as Efficient Photocatalyst for Water Splitting (Prof. Dr. Martin Muhler, Bochum, Prof. Dr. Markus Winterer, Duisburg)
- Ta3N5 nanotubes and -rods: doping, band-gap engineering and stabilization (co-catalysis) (Prof. Dr. Patrik Schmuki, Erlangen-Nürnberg)
- Nanostructured mixed metal oxides for the electrocatalytic oxidation of water (Prof. Dr. Peter Strasser, Berlin, Dr. Detre Teschner, Berlin)
- Three-dimensional semiconductor nanowire networks as model systems to study physical processes in nanostructured electrodes for light-driven water splitting (Dr. Maria Eugenia Toimil-Molares, Darmstadt)
- Photoelectrocatalytic Anion Substituted Perovskites PAP (Prof. Dr. Anke Weidenkaff, Stuttgart)