Hengge, K. A.; Scheu, C.: Stability of a novel Pt/Ru catalyst for polymer electrolyte membrane fuel cells. 64. Metallkunde-Kolloquium, Lech am Arlberg, Austria (2018)
Hengge, K. A.; Scheu, C.: Novel electrodes for polymer based fuel cells. The 18th Israel Materials Engineering Conference (IMEC18), Dead Sea, Israel (2018)
Scheu, C.: 3D Nb3O7(OH) Nanoarrays – Structure, Stability and Functional Properties. Talk at Felix-Bloch-Institut für Festkörperphysik, Universität Leipzig, Leipzig, Germany (2018)
Hieke, S. W.; Willinger, M. G.; Wang, Z.-J.; Richter, G.; Dehm, G.; Scheu, C.: Evolution of faceted voids and fingering instabilities in a model thin film system - Insights by in-situ environmental scanning electron microscopy. Symposium - In situ Microscopy with Electrons, X‐rays and Scanning Probes, Universität Erlangen‐Nürnberg, Erlangen, Germany (2017)
Scheu, C.: Thermal stability and phase transformation of nanostructured Nb3O7(OH) photocatalyst. Material Science & Technology (MST), Salt Lake City, UT, USA (2017)
Zhang, S.; Diehl, L.; Lotsch, B. V.; Scheu, C.: In-situ heating study on the growth of NiOx nanoparticles on photocatalytic supports. International GRK 1896 Satellite Symposium “In Situ Microscopy with Electrons, X-rays and Scanning Probes, Erlangen, Germany (2017)
Betzler, S. B.; Scheu, C.: Nb3O7(OH) – a promising candidate for photocatalyst: synthesis, nanostructure and functionality. International Conference on Functional Nanomaterials and Nanodevices, Budapest, Hungary (2017)
Garzón-Manjón, A.; Zahn, G.; Kuchshaus, C.; Ludwig, A.; Scheu, C.: Observation of the Structural Transformation of Multinary Nanoparticles by In-situ Transmission Electron Microscopy. 13th Multinational Congress on Microscopy (MCM2017), Rovinj, Croatia (2017)
Festakt am 16. April mit Ina Brandes, Ministerin für Kultur und Wissenschaft des Landes Nordrhein-Westfalen, Düsseldorfs Oberbürgermeister Stephan Keller und Präsident der Max-Planck-Gesellschaft Patrick Cramer
Drei neue Gruppenleiter am Max-Planck-Institut für Eisenforschung entwickeln verbesserte Batteriematerialien durch experimentelle und theoretische Methoden
Neues Video erklärt wie Ammoniak die Speicherung und den Transport von Wasserstoff erleichtert und zur Produktion von grünem Stahl verwendet werden kann