Are natural deep eutectic solvents the missing link in understanding cellular metabolism and physiology? YH Choi, J van Spronsen, Y Dai, M Verberne, F Hollmann, IWCE Arends, ... Plant physiology 156 (4), 1701-1705, 2011 | 1168 | 2011 |
Enzyme-mediated oxidations for the chemist F Hollmann, IWCE Arends, K Buehler, A Schallmey, B Bühler Green Chemistry 13 (2), 226-265, 2011 | 478 | 2011 |
Enzymatic reductions for the chemist F Hollmann, IWCE Arends, D Holtmann Green Chemistry 13 (9), 2285-2314, 2011 | 407 | 2011 |
Biocatalytic oxidation reactions: a chemist's perspective JJ Dong, E Fernández‐Fueyo, F Hollmann, CE Paul, M Pesic, S Schmidt, ... Angewandte Chemie International Edition 57 (30), 9238-9261, 2018 | 398* | 2018 |
Synthetic cascades are enabled by combining biocatalysts with artificial metalloenzymes V Köhler, YM Wilson, M Dürrenberger, D Ghislieri, E Churakova, T Quinto, ... Nature Chemistry 5 (2), 93-99, 2013 | 363 | 2013 |
The use of enzymes in the chemical industry in Europe A Schmid, F Hollmann, JB Park, B Bühler Current Opinion in Biotechnology 13 (4), 359-366, 2002 | 291 | 2002 |
Selective aerobic oxidation reactions using a combination of photocatalytic water oxidation and enzymatic oxyfunctionalizations W Zhang, E Fernández-Fueyo, Y Ni, M Van Schie, J Gacs, R Renirie, ... Nature catalysis 1 (1), 55-62, 2018 | 284 | 2018 |
Oxidoreductases on their way to industrial biotransformations AT Martínez, FJ Ruiz-Dueñas, S Camarero, A Serrano, D Linde, H Lund, ... Biotechnology advances 35 (6), 815-831, 2017 | 283 | 2017 |
Biocatalytic redox reactions for organic synthesis: nonconventional regeneration methods F Hollmann, IWCE Arends, K Buehler ChemCatChem 2 (7), 762-782, 2010 | 275 | 2010 |
Enzyme initiated radical polymerizations F Hollmann, IWCE Arends Polymers 4 (1), 759-793, 2012 | 230 | 2012 |
[Cp∗ Rh (bpy)(H2O)] 2+: a versatile tool for efficient and non-enzymatic regeneration of nicotinamide and flavin coenzymes F Hollmann, B Witholt, A Schmid Journal of Molecular Catalysis B: Enzymatic 19, 167-176, 2002 | 228 | 2002 |
Peroxygenases en route to becoming dream catalysts. What are the opportunities and challenges? Y Wang, D Lan, R Durrani, F Hollmann Current opinion in chemical biology 37, 1-9, 2017 | 227 | 2017 |
How Green is Biocatalysis? To Calculate is To Know. Y Ni, D Holtmann, F Hollmann ChemCatChem 6 (4), 2014 | 210 | 2014 |
The first synthetic application of a monooxygenase employing indirect electrochemical NADH regeneration F Hollmann, A Schmid, E Steckhan Angewandte Chemie International Edition 40 (1), 169-171, 2001 | 199 | 2001 |
Mimicking Nature: Synthetic Nicotinamide Cofactors for C C Bioreduction Using Enoate Reductases CE Paul, S Gargiulo, DJ Opperman, I Lavandera, V Gotor-Fernández, ... Organic letters 15 (1), 180-183, 2013 | 197 | 2013 |
Stereospecific biocatalytic epoxidation: the first example of direct regeneration of a FAD-dependent monooxygenase for catalysis F Hollmann, PC Lin, B Witholt, A Schmid Journal of the American Chemical Society 125 (27), 8209-8217, 2003 | 190 | 2003 |
Non-enzymatic regeneration of nicotinamide and flavin cofactors for monooxygenase catalysis F Hollmann, K Hofstetter, A Schmid TRENDS in Biotechnology 24 (4), 163-171, 2006 | 180 | 2006 |
Better than nature: nicotinamide biomimetics that outperform natural coenzymes T Knaus, CE Paul, CW Levy, S De Vries, FG Mutti, F Hollmann, ... Journal of the American Chemical Society 138 (3), 1033-1039, 2016 | 177 | 2016 |
Recent trends and novel concepts in cofactor-dependent biotransformations S Kara, JH Schrittwieser, F Hollmann, MB Ansorge-Schumacher Applied microbiology and biotechnology 98, 1517-1529, 2014 | 173 | 2014 |
Hydrogen peroxide driven biocatalysis BO Burek, S Bormann, F Hollmann, JZ Bloh, D Holtmann Green Chemistry 21 (12), 3232-3249, 2019 | 164 | 2019 |