| Effect of channel geometry on solute dispersion in pressure-driven microfluidic systems D Dutta, A Ramachandran, DT Leighton Microfluidics and Nanofluidics 2, 275-290, 2006 | 185 | 2006 |
| Dispersion reduction in pressure-driven flow through microetched channels D Dutta, DT Leighton Analytical chemistry 73 (3), 504-513, 2001 | 152 | 2001 |
| Dispersion in large aspect ratio microchannels for open-channel liquid chromatography D Dutta, DT Leighton Analytical chemistry 75 (1), 57-70, 2003 | 57 | 2003 |
| A low dispersion geometry for microchip separation devices D Dutta, DT Leighton Analytical chemistry 74 (5), 1007-1016, 2002 | 54 | 2002 |
| Enhancement in the sensitivity of microfluidic enzyme-linked immunosorbent assays through analyte preconcentration N Yanagisawa, D Dutta Analytical chemistry 84 (16), 7029-7036, 2012 | 41 | 2012 |
| Electroosmotic transport through rectangular channels with small zeta potentials D Dutta Journal of colloid and interface science 315 (2), 740-746, 2007 | 31 | 2007 |
| A microfluidic device for performing pressure-driven separations D Dutta, JM Ramsey Lab on a Chip 11 (18), 3081-3088, 2011 | 30 | 2011 |
| Sodium silicate based sol–gel structures for generating pressure-driven flow in microfluidic channels GM Toh, RC Corcoran, D Dutta Journal of Chromatography A 1217 (30), 5004-5011, 2010 | 29 | 2010 |
| A low molecular weight cut-off polymer–silicate membrane for microfluidic applications GM Toh, N Yanagisawa, RC Corcoran, D Dutta Microfluidics and nanofluidics 9, 1135-1141, 2010 | 27 | 2010 |
| Solutal transport in rectangular nanochannels under pressure-driven flow conditions D Dutta Microfluidics and nanofluidics 10, 691-696, 2011 | 24 | 2011 |
| Dispersion reduction in open-channel liquid electrochromatographic columns via pressure-driven back flow D Dutta, DT Leighton Analytical chemistry 75 (14), 3352-3359, 2003 | 24 | 2003 |
| Electrokinetic transport of charged samples through rectangular channels with small zeta potentials D Dutta Analytical chemistry 80 (12), 4723-4730, 2008 | 23 | 2008 |
| Transport of charged samples in fluidic channels with large zeta potentials D Dutta Electrophoresis 28 (24), 4552-4560, 2007 | 22 | 2007 |
| An analytic description of electrodynamic dispersion in free-flow zone electrophoresis D Dutta Journal of Chromatography A 1404, 124-130, 2015 | 21 | 2015 |
| Microfluidic flow counterbalanced capillary electrophoresis L Xia, D Dutta Analyst 138 (7), 2126-2133, 2013 | 21 | 2013 |
| A microchip device for enhancing capillary zone electrophoresis using pressure-driven backflow L Xia, D Dutta Analytical chemistry 84 (22), 10058-10063, 2012 | 21 | 2012 |
| Undergraduate laboratory module for implementing ELISA on the high performance microfluidic platform B Giri, RR Peesara, N Yanagisawa, D Dutta Journal of chemical education 92 (4), 728-732, 2015 | 20 | 2015 |
| Multiplex ELISA in a single microfluidic channel N Yanagisawa, JO Mecham, RC Corcoran, D Dutta Analytical and bioanalytical chemistry 401, 1173-1181, 2011 | 20 | 2011 |
| Joule heating induced stream broadening in free‐flow zone electrophoresis D Dutta Electrophoresis 39 (5-6), 760-769, 2018 | 19 | 2018 |
| Improvement in the sensitivity of microfluidic ELISA through field amplified stacking of the enzyme reaction product B Giri, D Dutta Analytica Chimica Acta 810, 32-38, 2014 | 19 | 2014 |
Naoki YanagisawaUniv. of Wyoming, Nagoya Univ., Univ. of Oxford & ETH Zurich在 nagoya-u.jp 的电子邮件经过验证
