Sumita Pennathur
Sumita Pennathur
Department of Mechanical Engineering, UCSB
Verified email at
Cited by
Cited by
Electrokinetic transport in nanochannels. 1. Theory
S Pennathur, JG Santiago
Analytical chemistry 77 (21), 6772-6781, 2005
Electrokinetic transport in nanochannels. 2. Experiments
S Pennathur, JG Santiago
Analytical chemistry 77 (21), 6782-6789, 2005
Nanofluidic technology for biomolecule applications: a critical review
M Napoli, JCT Eijkel, S Pennathur
Lab on a Chip 10 (8), 957-985, 2010
Nanotechnology: understanding small systems
B Rogers, J Adams, S Pennathur
Crc Press, 2007
Energy conversion in microsystems: is there a role for micro/nanofluidics?
S Pennathur, JC Eijkel, A van den Berg
Lab on a Chip 7 (10), 1234-1237, 2007
Free-solution oligonucleotide separation in nanoscale channels
S Pennathur, F Baldessari, JG Santiago, MG Kattah, JB Steinman, PJ Utz
Analytical chemistry 79 (21), 8316-8322, 2007
Flow control in microfluidics: are the workhorse flows adequate?
S Pennathur
Lab on a Chip 8 (3), 383-387, 2008
Distinct conformations of DNA-stabilized fluorescent silver nanoclusters revealed by electrophoretic mobility and diffusivity measurements
T Driehorst, P O’Neill, PM Goodwin, S Pennathur, DK Fygenson
Langmuir 27 (14), 8923-8933, 2011
Optofluidics: field or technique?
VR Horowitz, DD Awschalom, S Pennathur
Lab on a Chip 8 (11), 1856, 2008
Efficiently accounting for ion correlations in electrokinetic nanofluidic devices using density functional theory
D Gillespie, AS Khair, JP Bardhan, S Pennathur
Journal of colloid and interface science 359 (2), 520-529, 2011
Quantitative characterization of the colloidal stability of metallic nanoparticles using UV–Vis absorbance spectroscopy
TR Ray, B Lettiere, J de Rutte, S Pennathur
Langmuir 31 (12), 3577-3586, 2015
Separation of ions in nanofluidic channels with combined pressure-driven and electro-osmotic flow
D Gillespie, S Pennathur
Analytical chemistry 85 (5), 2991-2998, 2013
Surface-dependent chemical equilibrium constants and capacitances for bare and 3-cyanopropyldimethylchlorosilane coated silica nanochannels
MB Andersen, J Frey, S Pennathur, H Bruus
Journal of colloid and interface science 353 (1), 301-310, 2011
Improving fluorescence detection in lab on chip devices
S Pennathur, DK Fygenson
Lab on a Chip 8 (5), 649-652, 2008
Streaming current and wall dissolution over 48 h in silica nanochannels
MB Andersen, H Bruus, JP Bardhan, S Pennathur
Journal of colloid and interface science 360 (1), 262-271, 2011
How to exploit the features of microfluidics technology
S Pennathur, CD Meinhart, HT Soh
Lab on a Chip 8 (1), 20-22, 2008
Multiphase flow in lab on chip devices: A real tool for the future
L Shui, S Pennathur, JCT Eijkel, A Van Den Berg
Lab on a Chip 8 (7), 1010-1014, 2008
Simulation tools for lab on a chip research: advantages, challenges, and thoughts for the future.
DA Boy, F Gibou, S Pennathur
Lab on a Chip 8 (9), 1424-1431, 2008
DNA-stabilized silver nanoclusters as specific, ratiometric fluorescent dopamine sensors
JT Del Bonis-O’Donnell, A Thakrar, JW Hirschberg, D Vong, BN Queenan, ...
ACS chemical neuroscience 9 (4), 849-857, 2017
Hydronium-dominated ion transport in carbon-dioxide-saturated electrolytes at low salt concentrations in nanochannels
KL Jensen, JT Kristensen, AM Crumrine, MB Andersen, H Bruus, ...
Physical Review E 83 (5), 056307, 2011
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