Multiphase monolith reactors: chemical reaction engineering of segmented flow in microchannels MT Kreutzer, F Kapteijn, JA Moulijn, JJ Heiszwolf Chemical Engineering Science 60 (22), 5895-5916, 2005 | 759 | 2005 |
Inertial and interfacial effects on pressure drop of Taylor flow in capillaries MT Kreutzer, F Kapteijn, JA Moulijn, CR Kleijn, JJ Heiszwolf AIChE Journal 51 (9), 2428-2440, 2005 | 442 | 2005 |
μ-PIV study of the formation of segmented flow in microfluidic T-junctions V van Steijn, MT Kreutzer, CR Kleijn Chemical Engineering Science 62 (24), 7505-7514, 2007 | 353 | 2007 |
Mass transfer characteristics of three-phase monolith reactors MT Kreutzer, P Du, JJ Heiszwolf, F Kapteijn, JA Moulijn Chemical Engineering Science 56 (21-22), 6015-6023, 2001 | 302 | 2001 |
Predictive model for the size of bubbles and droplets created in microfluidic T-junctions V van Steijn, CR Kleijn, MT Kreutzer Lab on a Chip 10 (19), 2513-2518, 2010 | 297 | 2010 |
Benchmark numerical simulations of segmented two-phase flows in microchannels using the Volume of Fluid method DA Hoang, V van Steijn, LM Portela, MT Kreutzer, CR Kleijn Computers & Fluids 86, 28-36, 2013 | 262 | 2013 |
Monolithic catalysts as efficient three-phase reactors TA Nijhuis, MT Kreutzer, ACJ Romijn, F Kapteijn, JA Moulijn Chemical Engineering Science 56 (3), 823-829, 2001 | 183 | 2001 |
Flows around confined bubbles and their importance in triggering pinch-off V van Steijn, CR Kleijn, MT Kreutzer Physical review letters 103 (21), 214501, 2009 | 174 | 2009 |
Liquid–liquid flow in a capillary microreactor: hydrodynamic flow patterns and extraction performance J Jovanovic, EV Rebrov, TA Nijhuis, MT Kreutzer, V Hessel, JC Schouten Industrial & Engineering Chemistry Research 51 (2), 1015-1026, 2012 | 171 | 2012 |
Monodisperse hydrogel microspheres by forced droplet formation in aqueous two-phase systems I Ziemecka, V van Steijn, GJM Koper, M Rosso, AM Brizard, JH van Esch, ... Lab on a Chip 11 (4), 620-624, 2011 | 168 | 2011 |
Dynamics of droplet breakup in a T-junction DA Hoang, LM Portela, CR Kleijn, MT Kreutzer, V Van Steijn Journal of Fluid Mechanics 717, R4, 2013 | 147 | 2013 |
Weakly bound capping agents on gold nanoparticles in catalysis: Surface poison? A Quintanilla, VCL Butselaar-Orthlieb, C Kwakernaak, WG Sloof, ... Journal of Catalysis 271 (1), 104-114, 2010 | 140 | 2010 |
Shouldn’t catalysts shape up?: Structured reactors in general and gas–liquid monolith reactors in particular MT Kreutzer, F Kapteijn, JA Moulijn Catalysis today 111 (1-2), 111-118, 2006 | 134 | 2006 |
Gas–liquid mass transfer of aqueous Taylor flow in monoliths JJ Heiszwolf, MT Kreutzer, MG van den Eijnden, F Kapteijn, JA Moulijn Catalysis Today 69 (1-4), 51-55, 2001 | 122 | 2001 |
Understanding and controlling the aggregative growth of platinum nanoparticles in atomic layer deposition: an avenue to size selection F Grillo, H Van Bui, JA Moulijn, MT Kreutzer, JR Van Ommen The journal of physical chemistry letters 8 (5), 975-983, 2017 | 121 | 2017 |
All-aqueous core-shell droplets produced in a microfluidic device I Ziemecka, V Van Steijn, GJM Koper, MT Kreutzer, JH Van Esch Soft Matter 7 (21), 9878-9880, 2011 | 109 | 2011 |
On the fabrication of PDMS micromodels by rapid prototyping, and their use in two‐phase flow studies NK Karadimitriou, M Musterd, PJ Kleingeld, MT Kreutzer, ... Water Resources Research 49 (4), 2056-2067, 2013 | 107 | 2013 |
Elastic instabilities during the flow of hydrolyzed polyacrylamide solution in porous media: effect of pore-shape and salt D Kawale, E Marques, PLJ Zitha, MT Kreutzer, WR Rossen, PE Boukany Soft matter 13 (4), 765-775, 2017 | 105 | 2017 |
Hydrodynamic aspects of the monolith loop reactor JJ Heiszwolf, LB Engelvaart, MG van den Eijnden, MT Kreutzer, ... Chemical Engineering Science 56 (3), 805-812, 2001 | 104 | 2001 |
Monolithic catalysts as more efficient three-phase reactors TA Nijhuis, MT Kreutzer, ACJ Romijn, F Kapteijn, JA Moulijn Catalysis Today 66 (2-4), 157-165, 2001 | 103 | 2001 |