个人简介

B. Tech. in Chemical Engineering, 1998, Indian Institute of Technology (IIT), Bombay Ph.D. in Chemical Engineering, 2003, University of Notre Dame Postdoctoral Fellow, 2003-2006, Department of Chemistry, University of North Carolina at Chapel Hill

研究领域

Analytical Chemistry

The Dutta research group focuses on the design of novel micro- and nanofluidic instrumentation that can enhance our current capability to perform chemical and biochemical assays. Ongoing projects in this group include investigations on nanoscale separation methods, microfluidic immunoassays and realizing advanced sample preparation capabilities for bio-detection applications. In a different effort, the Dutta research group members are also involved in designing novel microfluidic fuel cell devices with improved power generation capability.

近期论文

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T.F. Kinde, T.D. Lopez and D. Dutta, 2015, “Electrophoretic extraction of low molecular weight cationic analytes from sodium dodecyl sulfate containing sample matrices for their direct electrospray ionization mass spectrometry”, Analytical Chemistry, 87(5), 2702-2709. B. Giri, R.R. Peesara, N. Yanagisawa and D. Dutta, 2015, “Undergraduate laboratory module for implementing ELISA on the high performance microfluidic platform”, Journal of Chemical Education, 92 (4), 728-732. D. Dutta, 2014, “Enhanced microfluidic separation by pressure-driven flow”, Encyclopedia of Microfluidics and Nanofluidics, Ed. Dongqing Li, Springer, New York, pp 1-13. J. Pena, S.J. McAllister and D. Dutta, 2014, “A glass microchip device for conducting serological survey of West Nile viral antibodies”, Biomedical Microdevices, 16 (5), 737-743. D. Dutta, 2014, “A method-of-moments formulation for describing hydrodynamic dispersion of analyte streams in free-flow zone electrophoresis”, Journal of Chromatography A, 1340, 134-138. N. Yanagisawa and D. Dutta, 2014, “Microfluidic enzyme-linked immunosorbent assay in a region of finite length”, Analytica Chimica Acta, 817, 28-32. B. Giri and D. Dutta, 2014, “Improvement in the sensitivity of microfluidic ELISA through field amplified stacking of the enzyme reaction product”, Analytica Chimica Acta, 810, 32-38. T.F. Kinde and D. Dutta, 2013, “A microfluidic SPLITT device for fractionating low molecular weight samples”, Analytical Chemistry, 85 (15), 7167- 7172. D. Dutta, 2013, “A numerical analysis of nanofluidic charge based separations using a combination of electrokinetic and hydrodynamic flows”, Chemical Engineering Science, 93, 124-130. L. Xia and D. Dutta, 2013, “Microfluidic flow counterbalanced capillary electrophoresis”, Analyst, 138 (7), 2126-2133. L. Xia and D. Dutta, 2012, “A microchip device for enhancing capillary zone electrophoresis using pressure-driven backflow”, Analytical Chemistry, 84 (22), 10058-10063. N. Yanagisawa and D. Dutta, 2012, “Enhancement in the sensitivity of microfluidic enzyme-linked immunosorbent assays through analyte preconcentration”, Analytical Chemistry, 84 (16), 7029-7036. D. Dutta and J.M. Ramsey, 2011, “A microfluidic device for performing pressure-driven separations”, Lab on a Chip, 11 (18), 3081-3088. N. Yanagisawa, J.O. Mecham, R.C. Corcoran and D. Dutta, 2011, “Multiplex ELISA in a single microfluidic channel”, Analytical and Bioanalytical Chemistry, 401 (4), 1173-1181. N. Yanagisawa and D. Dutta, 2011, “Kinetic ELISA in microfluidic channels”, Biosensors, 1 (2), 58-69. D. Dutta, 2011, “Solutal transport in rectangular nanochannels under pressure-driven flow conditions”, Microfluidics and Nanofluidics, 10 (3), 691-696. G.M. Toh, R.C. Corcoran and D. Dutta, 2010, “Sodium silicate based sol-gel structures for generating pressure-driven flow in microfluidic channels”, Journal of Chromatography A, 1217 (30), 5004-5011. G.M. Toh, N. Yanagisawa, R.C. Corcoran and D. Dutta, 2010, “A low molecular weight cut-off polymer-silicate membrane for microfluidic applications”, Microfluidics and Nanofluidics, 9 (6), 1135-1141. N. Yanagisawa and D. Dutta, 2010, “Pressure generation at the junction of two microchannels with different depths”, Electrophoresis, 31 (12), 2080-2088. C.J. Wadsworth, N. Yanagisawa and D. Dutta, 2010, “Nanochannel arrays as supports for proton exchange membranes in microfluidic fuel cells”, Journal of Power Sources, 195 (11), 3636-3639.