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Dr Erwin Reisner

Portrait of er376

We are interested in artificial photosynthesis and solar fuels and develop novel photocatalytic systems by combining homogenous synthetic catalysts and enzymes with a light absorbing nanostructured semiconductor. A current focus lies on the sunlight-driven production of the high specific energy carrier hydrogen and the selective conversion of the greenhouse gas carbon dioxide into carbon monoxide and formic acid. Our cross-disciplinary laboratory covers a wide range of disciplines, from Synthetic Molecular and Materials Chemistry to Biological Chemistry combined with Electro-, Photochemistry and Nanoscience.


More information can be found at our group website:


Keywords:  Solar fuels, artificial photosynthesis, Water and CO2 splitting, Small Molecule Activation, Catalysis, Metalloenzymes, Biomimetic Chemistry, Bio-inorganic Chemistry Synthetic Chemistry, Electrochemistry, Photoelectrochemistry, Materials Chemistry, Nanotechnology, Functional and Energy Materials.



Raw data supporting publication: High Performance Reduction of H2O2 with an Electron Transport Decaheme Cytochrome on a Porous ITO Electrode
E Reisner, B Reuillard, KH Ly, P Hildebrandt, LJC Jeuken, JN Butt
Research data supporting "Solar-driven reforming of lignocellulose to H2 with a CdS/CdOx photocatalyst"
E Reisner, D Wakerley, M Kuehnel, T Rosser, K Ly, K Orchard
Time-Resolved IR Spectroscopy Reveals a Mechanism with TiO2 as a Reversible Electron Acceptor in a TiO2-Re Catalyst System for CO2 Photoreduction.
M Abdellah, AM El-Zohry, LJ Antila, CD Windle, E Reisner, L Hammarström
– Journal of the American Chemical Society
Dark Photocatalysis: Storage of Solar Energy in Carbon Nitride for Time-Delayed Hydrogen Generation
VW-H Lau, D Klose, H Kasap, F Podjaski, M-C Pignié, E Reisner, G Jeschke, BV Lotsch
– Angew Chem Int Ed Engl
Carbon Dots as Versatile Photosensitizers for Solar-Driven Catalysis with Redox Enzymes.
GAM Hutton, B Reuillard, BCM Martindale, CA Caputo, CWJ Lockwood, JN Butt, E Reisner
– Journal of the American Chemical Society
Research data supporting "Carbon Dots as Versatile Photosensitizers for Solar-Driven Catalysis with Redox Enzymes"
GMA Hutton, B Reuillard, CM Martindale, CA Caputo, CWJ Lockwood, JNB Butt, E Reisner
Photoreduction of Shewanella oneidensis Extracellular Cytochromes by Organic Chromophores and Dye-Sensitized TiO2.
EV Ainsworth, CWJ Lockwood, GF White, ET Hwang, T Sakai, MA Gross, DJ Richardson, TA Clarke, LJC Jeuken, E Reisner, JN Butt
– Chembiochem
Competing charge transfer pathways at the photosystem II–electrode interface
JZ Zhang, KP Sokol, N Paul, E Romero, R van Grondelle, E Reisner
– Nature Chemical Biology
Solar-driven Reduction of Aqueous Protons Coupled to Selective Alcohol Oxidation with a Carbon Nitride - Molecular Ni Catalyst System
H Kasap, CA Caputo, BCM Martindale, R Godin, VW-H Lau, BV Lotsch, JR Durrant, E Reisner
– Journal of the American Chemical Society
Clean Donor Oxidation Enhances H 2 Evolution Activity of a Carbon Quantum Dot-Molecular Catalyst Photosystem
BCM Martindale, E Joliat, C Bachmann, R Alberto, E Reisner
– Angew Chem Int Ed Engl
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01223 336323

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