An integrated nanoliter DNA analysis device MA Burns, BN Johnson, SN Brahmasandra, K Handique, JR Webster, ... Science 282 (5388), 484-487, 1998 | 1989 | 1998 |
PCR in a Rayleigh-Benard convection cell M Krishnan, VM Ugaz, MA Burns Science 298 (5594), 793-793, 2002 | 376 | 2002 |
An integrated microfluidic device for influenza and other genetic analyses R Pal, M Yang, R Lin, BN Johnson, N Srivastava, SZ Razzacki, ... Lab on a Chip 5 (10), 1024-1032, 2005 | 300 | 2005 |
Geometry-induced electrostatic trapping of nanometric objects in a fluid M Krishnan, N Mojarad, P Kukura, V Sandoghdar Nature 467 (7316), 692-695, 2010 | 279 | 2010 |
Microfabricated reaction and separation systems M Krishnan, V Namasivayam, R Lin, R Pal, MA Burns Current Opinion in Biotechnology 12 (1), 92-98, 2001 | 140 | 2001 |
Reactions and fluidics in miniaturized natural convection systems M Krishnan, N Agrawal, MA Burns, VM Ugaz Analytical Chemistry 76 (21), 6254-6265, 2004 | 123 | 2004 |
Single-molecule electrometry F Ruggeri, F Zosel, N Mutter, M Różycka, M Wojtas, A Ożyhar, B Schuler, ... Nature Nanotechnology 12 (5), 488-495, 2017 | 92 | 2017 |
Spontaneous stretching of DNA in a two-dimensional nanoslit M Krishnan, I Mönch, P Schwille Nano Letters 7 (5), 1270-1275, 2007 | 92 | 2007 |
Measuring the size and charge of single nanoscale objects in solution using an electrostatic fluidic trap N Mojarad, M Krishnan Nature Nanotechnology 7 (7), 448-452, 2012 | 79 | 2012 |
Polymerase Chain Reaction in High Surface-to-Volume Ratio SiO2 Microstructures M Krishnan, DT Burke, MA Burns Analytical Chemistry 76 (22), 6588-6593, 2004 | 67 | 2004 |
Electrostatic free energy for a confined nanoscale object in a fluid M Krishnan The Journal of chemical physics 138 (11), 2013 | 45 | 2013 |
Science1998, 282, 484− 487 MA Burns, BN Johnson, SN Brahmasandra, K Handique, JR Webster, ... Google Scholar There is no corresponding record for this reference, 0 | 42 | |
Information storage and retrieval in a single levitating colloidal particle CJ Myers, M Celebrano, M Krishnan Nature nanotechnology 10 (10), 886-891, 2015 | 37 | 2015 |
A simple model for electrical charge in globular macromolecules and linear polyelectrolytes in solution M Krishnan The Journal of chemical physics 146 (20), 2017 | 33 | 2017 |
Measuring three-dimensional interaction potentials using optical interference N Mojarad, V Sandoghdar, M Krishnan Optics express 21 (8), 9377-9389, 2013 | 33 | 2013 |
Measured electrical charge of SiO2 in polar and nonpolar media G Kokot, MI Bespalova, M Krishnan The Journal of chemical physics 145 (19), 2016 | 30 | 2016 |
Electrostatic Self‐Assembly of Charged Colloids and Macromolecules in a Fluidic Nanoslit M Krishnan, Z Petrášek, I Mönch, P Schwille Small 4 (11), 1900-1906, 2008 | 29 | 2008 |
Entropic trapping of a singly charged molecule in solution F Ruggeri, M Krishnan Nano letters 18 (6), 3773-3779, 2018 | 28 | 2018 |
Angular trapping of anisometric nano-objects in a fluid M Celebrano, C Rosman, C Sönnichsen, M Krishnan Nano letters 12 (11), 5791-5796, 2012 | 28 | 2012 |
Novel convective flow based approaches for high-throughput PCR thermocycling VM Ugaz, M Krishnan JALA: Journal of the Association for Laboratory Automation 9 (5), 318-323, 2004 | 28 | 2004 |