Ammonia sensors and their applications—a review B Timmer, W Olthuis, A Van Den Berg Sensors and Actuators B: Chemical 107 (2), 666-677, 2005 | 1599 | 2005 |
Microfluidic devices for cellomics: a review H Andersson, A Van den Berg Sensors and actuators B: Chemical 92 (3), 315-325, 2003 | 942 | 2003 |
Nanofluidics: what is it and what can we expect from it? JCT Eijkel, A Berg Microfluidics and Nanofluidics 1, 249-267, 2005 | 880 | 2005 |
Principles and applications of nanofluidic transport W Sparreboom, A van den Berg, JCT Eijkel Nature nanotechnology 4 (11), 713-720, 2009 | 854 | 2009 |
Field-effect flow control for microfabricated fluidic networks RBM Schasfoort, S Schlautmann, J Hendrikse, A Van Den Berg Science 286 (5441), 942-945, 1999 | 781 | 1999 |
Technologies for nanofluidic systems: top-down vs. bottom-up—a review D Mijatovic, JCT Eijkel, A Van den Berg Lab on a Chip 5 (5), 492-500, 2005 | 683 | 2005 |
Silicon micromachined hollow microneedles for transdermal liquid transport HJGE Gardeniers, R Luttge, EJW Berenschot, MJ De Boer, SY Yeshurun, ... Journal of Microelectromechanical systems 12 (6), 855-862, 2003 | 552 | 2003 |
BBB on chip: microfluidic platform to mechanically and biochemically modulate blood-brain barrier function LM Griep, F Wolbers, B de Wagenaar, PM ter Braak, BB Weksler, ... Biomedical microdevices 15, 145-150, 2013 | 535 | 2013 |
Hydrogel-based devices for biomedical applications K Deligkaris, TS Tadele, W Olthuis, A van den Berg Sensors and Actuators B: Chemical 147 (2), 765-774, 2010 | 485 | 2010 |
Microfabrication and microfluidics for tissue engineering: state of the art and future opportunities H Andersson, A Van Den Berg Lab on a Chip 4 (2), 98-103, 2004 | 408 | 2004 |
Capillary filling speed of water in nanochannels NR Tas, J Haneveld, HV Jansen, M Elwenspoek, A van den Berg Applied Physics Letters 85 (15), 3274-3276, 2004 | 326 | 2004 |
Organs-on-chips: breaking the in vitro impasse AD Van Der Meer, A Van Den Berg Integrative Biology 4 (5), 461-470, 2012 | 323 | 2012 |
Micro total analysis systems: microfluidic aspects, integration concept and applications A van den Berg, TSJ Lammerink Microsystem technology in chemistry and life science, 21-49, 1998 | 316 | 1998 |
Electroporation of cells in microfluidic devices: a review MB Fox, DC Esveld, A Valero, R Luttge, HC Mastwijk, PV Bartels, ... Analytical and bioanalytical chemistry 385, 474-485, 2006 | 311 | 2006 |
High-yield cell ordering and deterministic cell-in-droplet encapsulation using Dean flow in a curved microchannel EWM Kemna, RM Schoeman, F Wolbers, I Vermes, DA Weitz, ... Lab on a Chip 12 (16), 2881-2887, 2012 | 296 | 2012 |
Microfluidic organ-on-chip technology for blood-brain barrier research MW van Der Helm, AD Van Der Meer, JCT Eijkel, A van den Berg, ... Tissue barriers 4 (1), e1142493, 2016 | 291 | 2016 |
On-microchip multiphase chemistry—a review of microreactor design principles and reagent contacting modes GN Doku, W Verboom, DN Reinhoudt, A Van Den Berg Tetrahedron 61 (11), 2733-2742, 2005 | 280 | 2005 |
Micromachining of buried micro channels in silicon MJ de Boer, RW Tjerkstra, JW Berenschot, HV Jansen, GJ Burger, ... Journal of microelectromechanical systems 9 (1), 94-103, 2000 | 280 | 2000 |
The micro-Petri dish, a million-well growth chip for the culture and high-throughput screening of microorganisms CJ Ingham, A Sprenkels, J Bomer, D Molenaar, A van den Berg, ... Proceedings of the National Academy of Sciences 104 (46), 18217-18222, 2007 | 279 | 2007 |
Microtechnologies and nanotechnologies for single-cell analysis H Andersson, A van den Berg Current opinion in biotechnology 15 (1), 44-49, 2004 | 274 | 2004 |