Composite organic− inorganic nanoparticles (COINs) with chemically encoded optical signatures X Su, J Zhang, L Sun, TW Koo, S Chan, N Sundararajan, M Yamakawa, ... Nano letters 5 (1), 49-54, 2005 | 306 | 2005 |
Three-dimensional hydrodynamic focusing in polydimethylsiloxane (PDMS) microchannels N Sundararajan, MS Pio, LP Lee, AA Berlin Journal of Microelectromechanical systems 13 (4), 559-567, 2004 | 205 | 2004 |
Supercritical CO2 Processing for Submicron Imaging of Fluoropolymers N Sundararajan, S Yang, K Ogino, S Valiyaveettil, Wang, X Zhou, ... Chemistry of materials 12 (1), 41-48, 2000 | 170 | 2000 |
Microfluidic devices with porous membranes for molecular sieving, metering, and separations S Chan, N Sundararajan, AA Berlin, M Yamakawa US Patent 7,279,134, 2007 | 111 | 2007 |
Cascaded hydrodynamic focusing in microfluidic channels H Haussecker, N Sundararajan US Patent App. 10/232,170, 2004 | 106 | 2004 |
Microfabrication for microfluidics SJJ Lee, N Sundararajan Artech house, 2010 | 98 | 2010 |
Metal coated nanocrystalline silicon as an active surface enhanced Raman spectroscopy (SERS) substrate S Chan, AA Berlin, S Kwon, N Sundararajan, M Yamakawa US Patent 6,989,897, 2006 | 94 | 2006 |
Metal coated nanocrystalline silicon as an active surface enhanced Raman spectroscopy (SERS) substrate S Chan, AA Berlin, S Kwon, N Sundararajan, M Yamakawa US Patent 6,989,897, 2006 | 94 | 2006 |
Methods to increase nucleotide signals by Raman scattering X Su, S Chan, AA Berlin, TW Koo, N Sundararajan, M Yamakawa US Patent 6,972,173, 2005 | 90 | 2005 |
Methods to increase nucleotide signals by Raman scattering X Su, S Chan, AA Berlin, TW Koo, N Sundararajan, M Yamakawa US Patent 6,972,173, 2005 | 90 | 2005 |
Methods to increase nucleotide signals by Raman scattering X Su, S Chan, AA Berlin, TW Koo, N Sundararajan, M Yamakawa US Patent 6,972,173, 2005 | 90 | 2005 |
Methods to increase nucleotide signals by Raman scattering X Su, S Chan, AA Berlin, TW Koo, N Sundararajan, M Yamakawa US Patent 6,972,173, 2005 | 90 | 2005 |
Microfluidic operations using deformable polymer membranes fabricated by single layer soft lithography N Sundararajan, D Kim, AA Berlin Lab on a Chip 5 (3), 350-354, 2005 | 87 | 2005 |
Microfluidic apparatus with integrated porous-substrate/sensor for real-time (bio) chemical molecule detection M Yamakawa, J Heck, S Chan, N Sundararajan US Patent 6,806,543, 2004 | 72* | 2004 |
Modification of metal nanoparticles for improved analyte detection by surface enhanced Raman spectroscopy (SERS) J Zhang, N Sundararajan, SM Ngola, H Li US Patent 8,003,408, 2011 | 71 | 2011 |
Modification of metal nanoparticles for improved analyte detection by surface enhanced Raman spectroscopy (SERS) J Zhang, N Sundararajan, SM Ngola, H Li US Patent 8,003,408, 2011 | 71 | 2011 |
Method for sequencing nucleic acids by observing the uptake of nucleotides modified with bulky groups N Sundararajan, A Berlin, M Yamakawa, X Su, S Chan, TW Koo US Patent App. 10/153,189, 2003 | 68* | 2003 |
Method for sequencing nucleic acids by observing the uptake of nucleotides modified with bulky groups N Sundararajan, A Berlin, M Yamakawa, X Su, S Chan, TW Koo US Patent App. 10/153,189, 2003 | 68* | 2003 |
Methods for uniform metal impregnation into a nanoporous material S Chan, S Kwon, N Sundararajan US Patent 7,361,313, 2008 | 61 | 2008 |
Methods for uniform metal impregnation into a nanoporous material S Chan, S Kwon, N Sundararajan US Patent 7,361,313, 2008 | 61 | 2008 |