Publikationen von Ferdi Schüth

Galeano Nunez, D. C.; Katsounarus, I.; Topalov, A.; Kostka, A.; Meier, J.; Mayrhofer, K.; Schüth, F. Degradation Mechanisms of Pt/C Fuel Cell Catalysts under Simulated Start-Stop Conditions. ACS Catalysis 2012, 2, 832–843.

Güttel, R.; Paul, M.; Galeano Nunez, D. C.; Schüth, F. Au,@ZrO₂ yolk-shell catalysts for CO oxidation: Study of particle size effect by ex-post size control of Au cores. Journal of Catalysis 2012, 289, 100–104.

Tüysüz, H.; Weidenthaler, C.; Schüth, F. A Strategy for the Synthesis of Mesostructured Metal Oxides with Lower Oxidation States. Chemistry – A European Journal 2012, 18, 5080–5086.

Pommerin, A.; Wosylus, A.; Felderhoff, M.; Schüth, F.; Weidenthaler, C. Synthesis, Crystal Structures, and Hydrogen-Storage Properties of Eu(AlH₄)(₂) and Sr(AlH₄)(₂) and of Their Decomposition Intermediates, EuAlH₅ and SrAlH₅. Inorganic Chemistry 2012, 51, 4143–4150.

Schüth, F.; Palkovits, R.; Schlögl, R.; Su, D. Ammonia as a possible element in an energy infrastructure: catalysts for ammonia decomposition. Energy & Environmental Science 2012, 5, 6278–6289.

Kaper, H.; Grandjean, A.; Weidenthaler, C.; Schüth, F.; Goettmann, F. Surface Diels-Alder Reactions as an Effective Method to Synthesize Functional Carbon Materials. Chemistry – A European Journal 2012, 18, 4099–4106.

Schüth, F. Catalysis research-where does the path lead. Praxis der Naturwissenschaften, Chemie in der Schule 2012, 60, 8–13.

Jia, C.-J.; Schwickardi, M.; Weidenthaler, C.; Schmidt, W.; Korhonen, S.; Weckhuysen, B. M.; Schüth, F. Co₃O₄-SiO₂ Nanocomposite: A Very Active Catalyst for CO Oxidation with Unusual Catalytic Behavior. Journal of the American Chemical Society 2011, 133, 11279–11288.

Shao, H.; Felderhoff, M.; Schüth, F.; Weidenthaler, C. Nanostructured Ti-catalyzed MgH₂ for hydrogen storage. Nanotechnology 2011, 22, 235401.

Feyen, M.; Weidenthaler, C.; Güttel, R.; Schlichte, K.; Holle, U.; Lu, A.-H.; Schüth, F. High-Temperature Stable, Iron-Based Core-Shell Catalysts for Ammonia Decomposition. Chemistry – A European Journal 2011, 17, 598–605.

Asahina, S.; Uno, S.; Suga, M.; Stevens, S. M.; Klingstedt, M.; Okano, Y.; Kudo, M.; Schüth, F.; Anderson, M. W.; Adschiri, T.; Terasaki, O. A new HRSEM approach to observe fine structures of novel nanostructured materials. Microporous and Mesoporous Materials 2011, 146, 11–17.

Benitez, M. J.; Petracic, O.; Tüysüz, H.; Schüth, F.; Zabel, H. Fingerprinting the magnetic behavior of antiferromagnetic nanostructures using remanent magnetization curves. Physical Review B 2011, 83, 134424.

Galeano, C.; Güttel, R.; Paul, M.; Arnal, P.; Lu, A. H.; Schüth, F. Yolk-Shell Gold Nanoparticles as Model Materials for Support-Effect Studies in Heterogeneous Catalysis: Au, @C and Au, @ZrO(2) for CO Oxidation as an Example. Chemistry-A European Journal 2011, 17, 8434–8439.

Güttel, R.; Paul, M.; Schüth, F. Activity improvement of gold yolk-shell catalysts for CO oxidation by doping with TiO(2). Catalysis Science & Technology 2011, 1, 65–68.

Hao, G. P.; Li, W. C.; Qian, D.; Wang, G. H.; Zhang, W. P.; Zhang, T.; Wang, A. Q.; Schüth, F.; Bongard, H. J.; Lu, A. H. Structurally Designed Synthesis of Mechanically Stable Poly(benzoxazine-co-resol)-Based Porous Carbon Monoliths and Their Application as High-Performance CO(2) Capture Sorbents. Journal of the American Chemical Society 2011, 133, 11378–11388.

Hao, G.-P.; Li, W.-C.; Qiang, D.; Wang, G.-H.; Zhang, W.-P.; Zhang, T.; Wang, A.-Q.; Schüth, F.; Bongard, H.-J.; Lu, A.-H. Structurally Designed Synthesis of Mechanically Stable Poly(benzoxazine-co-resol)-Based Porous Carbon Monoliths and Their Application as High-Performance CO2 Capture Sorbents. Journal of the American Chemical Society 2011, 133, 11378–11388.

Jia, C. J.; Schüth, F. Colloidal metal nanoparticles as a component of designed catalyst. Physical Chemistry Chemical Physics 2011, 13, 2457–2487.

Onfroy, T.; Li, W. C.; Schüth, F.; Knözinger, H. The Role of the Synthesis Method in the Structure Formation of Cobalt Aluminate. Topics in Catalysis 2011, 54, 390–397.

Schüth, F. Controlled nanostructures for applications in catalysis. Physical Chemistry Chemical Physics 2011, 13, 2447–2448.

Schüth, F. Chemical Compounds for Energy Storage. Chemie Ingenieur Technik 2011, 83, 1984–1993.