Microfluidics: Fluid physics at the nanoliter scale TM Squires, SR Quake Reviews of modern physics 77 (3), 977, 2005 | 5353 | 2005 |
Making it stick: convection, reaction and diffusion in surface-based biosensors TM Squires, RJ Messinger, SR Manalis Nature biotechnology 26 (4), 417-426, 2008 | 1101 | 2008 |
Induced-charge electro-osmosis TM Squires, MZ Bazant Journal of Fluid Mechanics 509, 217-252, 2004 | 887 | 2004 |
Induced-charge electrokinetic phenomena: theory and microfluidic applications MZ Bazant, TM Squires Physical review letters 92 (6), 066101, 2004 | 829 | 2004 |
Fluid mechanics of microrheology TM Squires, TG Mason Annual review of fluid mechanics 42, 413-438, 2010 | 711 | 2010 |
Breaking symmetries in induced-charge electro-osmosis and electrophoresis TM Squires, MZ Bazant Journal of Fluid Mechanics 560, 65-101, 2006 | 398 | 2006 |
Determination of surface potential and electrical double-layer structure at the aqueous electrolyte-nanoparticle interface MA Brown, Z Abbas, A Kleibert, RG Green, A Goel, S May, TM Squires Physical Review X 6 (1), 011007, 2016 | 368 | 2016 |
Platelet-like nanoparticles: mimicking shape, flexibility, and surface biology of platelets to target vascular injuries AC Anselmo, CL Modery-Pawlowski, S Menegatti, S Kumar, DR Vogus, ... ACS nano 8 (11), 11243-11253, 2014 | 345 | 2014 |
Forces during bacteriophage DNA packaging and ejection PK Purohit, MM Inamdar, PD Grayson, TM Squires, J Kondev, R Phillips Biophysical journal 88 (2), 851-866, 2005 | 333 | 2005 |
Induced-charge electrokinetic phenomena MZ Bazant, TM Squires Current Opinion in Colloid & Interface Science 15 (3), 203-213, 2010 | 303 | 2010 |
A simple paradigm for active and nonlinear microrheology TM Squires, JF Brady Physics of Fluids 17 (7), 2005 | 291 | 2005 |
Hydrodynamic coupling of two Brownian spheres to a planar surface ER Dufresne, TM Squires, MP Brenner, DG Grier Physical review letters 85 (15), 3317, 2000 | 279 | 2000 |
Like-charge attraction and hydrodynamic interaction TM Squires, MP Brenner Physical review letters 85 (23), 4976, 2000 | 232 | 2000 |
Microrheology EM Furst, TM Squires Oxford University Press, 2017 | 228 | 2017 |
Experimental observation of induced-charge electro-osmosis around a metal wire in a microchannel JA Levitan, S Devasenathipathy, V Studer, Y Ben, T Thorsen, TM Squires, ... Colloids and Surfaces A: Physicochemical and Engineering Aspects 267 (1-3 …, 2005 | 202 | 2005 |
Surfactant dynamics: hidden variables controlling fluid flows H Manikantan, TM Squires Journal of fluid mechanics 892, P1, 2020 | 182 | 2020 |
Active microrheology and simultaneous visualization of sheared phospholipid monolayers SQ Choi, S Steltenkamp, JA Zasadzinski, TM Squires Nature communications 2 (1), 312, 2011 | 154 | 2011 |
A mathematical model for top-shelf vertigo: the role of sedimenting otoconia in BPPV TM Squires, MS Weidman, TC Hain, HA Stone Journal of Biomechanics 37 (8), 1137-1146, 2004 | 149 | 2004 |
The influence of hydrodynamic slip on the electrophoretic mobility of a spherical colloidal particle AS Khair, TM Squires Physics of Fluids 21 (4), 2009 | 146 | 2009 |
Brownian motion near a partial-slip boundary: A local probe of the no-slip condition E Lauga, TM Squires Physics of Fluids 17 (10), 2005 | 142 | 2005 |