Grewe, T.; Deng, X.; Tüysüz, H. A Study on the Growth of Cr2O3 in Ordered Mesoporous Silica and Its Replication. Chemistry – A European Journal2014, 20, 7692–7697.
Deng, X.; Schmidt, W.; Tüysüz, H. Impacts of Geometry, Symmetry, and Morphology of Nanocast Co3O4 on Its Catalytic Activity for Water Oxidation. Chemistry of Materials2014, 26, 6127–6134.
Grewe, T.; Deng, X.; Tüysüz, H. Influence of Fe Doping on Structure and Water Oxidation Activity of Nanocast Co3O4. Chemistry of Materials2014, 26, 3162–3168.
Grewe, T.; Deng, X.; Weidenthaler, C.; Schüth, F.; Tüysüz, H. Design of Ordered Mesoporous Composite Materials and Their Electrocatalytic Activities for Water Oxidation. Chemistry of Materials2013, 25, 4926–4935.
Tüysüz, H.; Chen, C. K. Preparation of amorphous and nanocrystalline sodium tantalum oxide photocatalysts with porous matrix structure for overall water splitting. NANO ENERGY2013, 2, 116–123.
Tüysüz, H.; Weidenthaler, C.; Schüth, F. A Strategy for the Synthesis of Mesostructured Metal Oxides with Lower Oxidation States. Chemistry – A European Journal2012, 18, 5080–5086.
Benitez, M. J.; Petracic, O.; Tüysüz, H.; Schüth, F.; Zabel, H. Fingerprinting the magnetic behavior of antiferromagnetic nanostructures using remanent magnetization curves. Physical Review B2011, 83, 134424.
Benitez, M. J.; Petracic, O.; Tüysüz, H.; Schüth, F.; Zabel, H. Decoupling of magnetic core and shell contributions in antiferromagnetic Co3O4 nanostructures. EPL2009, 88, 27004.
Tüysüz, H.; Llamas Galilea, J.; Schüth, F. Highly Diluted Copper in a Silica Matrix as Active Catalyst for Propylene Oxidation to Acrolein. Catalysis Letters2009, 131, 49–53.
Tüysüz, H.; Liu, Y.; Weidenthaler, C.; Schüth, F. Pseudomorphic Transformation of Highly Ordered Mesoporous Co3O4 to CoO via Reduction with Glycerol. Journal of the American Chemical Society2008, 130, 14108–14110.
Tüysüz, H.; Lehmann, C. W.; Bongard, H.; Tesche, B.; Schmidt, R.; Schüth, F. Direct Imaging of Surface Topology and Pore System of Ordered Mesoporous Silica (MCM-41, SBA-15, and KIT-6) and Nanocast Metal Oxides by High Resolution Scanning Electron Microscopy. Journal of the American Chemical Society2008, 130, 11510–11517.
Den neuen Typ von OER-Elektrokatalysatoren entdeckten PD Dr. Harun Tüysüz (Max-Planck-Institut für Kohlenforschung) sowie Prof. Dr. Claudia Felser (Max-Planck-Institut für Chemische Physik fester Stoffe) und ihre Teams.
Gemeinsam mit seinem Projektpartner Prof. Dr. Joseph Moran von der Universität Straßburg erhielt er nun den Forcheurs Jean-Marie Lehn Preis 2020 für die gemeinsamen Arbeiten zur Katalyse in der präbiotischen Chemie.
Auszeichnung erfolgt für seine herausragenden Arbeiten zur Entwicklung von Katalysatoren, die sowohl für chemische Synthesen als auch zur Energieumwandlung genutzt werden können.