Experimental characterization of electrospinning: the electrically forced jet and instabilities YM Shin, MM Hohman, MP Brenner, GC Rutledge Polymer 42 (25), 09955-09967, 2001 | 1624 | 2001 |
Electrospinning and electrically forced jets. I. Stability theory MM Hohman, M Shin, G Rutledge, MP Brenner Physics of fluids 13 (8), 2201-2220, 2001 | 1563 | 2001 |
Single-bubble sonoluminescence MP Brenner, S Hilgenfeldt, D Lohse Reviews of modern physics 74 (2), 425, 2002 | 1328 | 2002 |
Controlling the fiber diameter during electrospinning SV Fridrikh, JH Yu, MP Brenner, GC Rutledge Physical review letters 90 (14), 144502, 2003 | 1281 | 2003 |
Electrospinning and electrically forced jets. II. Applications MM Hohman, M Shin, G Rutledge, MP Brenner Physics of fluids 13 (8), 2221-2236, 2001 | 1114 | 2001 |
Electrospinning: A whipping fluid jet generates submicron polymer fibers YM Shin, MM Hohman, MP Brenner, GC Rutledge Applied physics letters 78 (8), 1149-1151, 2001 | 1075 | 2001 |
Microfluidics: the no-slip boundary condition E Lauga, MP Brenner, HA Stone arXiv preprint cond-mat/0501557, 2005 | 1037 | 2005 |
Machine learning–accelerated computational fluid dynamics D Kochkov, JA Smith, A Alieva, Q Wang, MP Brenner, S Hoyer Proceedings of the National Academy of Sciences 118 (21), e2101784118, 2021 | 930 | 2021 |
Learning data-driven discretizations for partial differential equations Y Bar-Sinai, S Hoyer, J Hickey, MP Brenner Proceedings of the National Academy of Sciences 116 (31), 15344-15349, 2019 | 631 | 2019 |
A cascade of structure in a drop falling from a faucet XD Shi, MP Brenner, SR Nagel Science 265 (5169), 219-222, 1994 | 506 | 1994 |
Phase diagrams for sonoluminescing bubbles S Hilgenfeldt, D Lohse, MP Brenner Physics of fluids 8 (11), 2808-2826, 1996 | 419 | 1996 |
Liquid transport facilitated by channels in Bacillus subtilis biofilms JN Wilking, V Zaburdaev, M De Volder, R Losick, MP Brenner, DA Weitz Proceedings of the National Academy of Sciences 110 (3), 848-852, 2013 | 404 | 2013 |
Electric-field-induced capillary attraction between like-charged particles at liquid interfaces MG Nikolaides, AR Bausch, MF Hsu, AD Dinsmore, MP Brenner, C Gay, ... Nature 420 (6913), 299-301, 2002 | 401 | 2002 |
The free-energy landscape of clusters of attractive hard spheres G Meng, N Arkus, MP Brenner, VN Manoharan Science 327 (5965), 560-563, 2010 | 383 | 2010 |
Handbook of experimental fluid dynamics E Lauga, MP Brenner, HA Stone, J Foss, C Tropea, A Yarin Microfluidics: The No-Slip Boundary Condition; Springer: New York, NY, USA, 2005 | 369 | 2005 |
Dynamic equilibrium mechanism for surface nanobubble stabilization MP Brenner, D Lohse Physical review letters 101 (21), 214505, 2008 | 367 | 2008 |
Physical mechanisms for chemotactic pattern formation by bacteria MP Brenner, LS Levitov, EO Budrene Biophysical journal 74 (4), 1677-1693, 1998 | 348 | 1998 |
Physical ageing of the contact line on colloidal particles at liquid interfaces DM Kaz, R McGorty, M Mani, MP Brenner, VN Manoharan Nature materials 11 (2), 138-142, 2012 | 344 | 2012 |
Shared computational principles for language processing in humans and deep language models A Goldstein, Z Zada, E Buchnik, M Schain, A Price, B Aubrey, SA Nastase, ... Nature neuroscience 25 (3), 369-380, 2022 | 341 | 2022 |
How bumps on whale flippers delay stall: an aerodynamic model EA Van Nierop, S Alben, MP Brenner Physical review letters 100 (5), 054502, 2008 | 318 | 2008 |