On the modeling of hydrophobic contact angles on rough surfaces NA Patankar Langmuir 19 (4), 1249-1253, 2003 | 1152 | 2003 |
Mimicking the lotus effect: influence of double roughness structures and slender pillars NA Patankar Langmuir 20 (19), 8209-8213, 2004 | 1078 | 2004 |
Direct numerical simulations of fluid–solid systems using the arbitrary Lagrangian–Eulerian technique HH Hu, NA Patankar, MY Zhu Journal of Computational Physics 169 (2), 427-462, 2001 | 1023 | 2001 |
Transition between superhydrophobic states on rough surfaces NA Patankar Langmuir 20 (17), 7097-7102, 2004 | 951 | 2004 |
Multiple equilibrium droplet shapes and design criterion for rough hydrophobic surfaces B He, NA Patankar, J Lee Langmuir 19 (12), 4999-5003, 2003 | 881 | 2003 |
Numerical simulation of electroosmotic flow NA Patankar, HH Hu Analytical Chemistry 70 (9), 1870-1881, 1998 | 692 | 1998 |
Stabilization of Leidenfrost vapour layer by textured superhydrophobic surfaces IU Vakarelski, NA Patankar, JO Marston, DYC Chan, ST Thoroddsen Nature 489 (7415), 274-277, 2012 | 591 | 2012 |
A new formulation of the distributed Lagrange multiplier/fictitious domain method for particulate flows NA Patankar, P Singh, DD Joseph, R Glowinski, TW Pan International Journal of Multiphase Flow 26 (9), 1509-1524, 2000 | 505 | 2000 |
Modeling and numerical simulation of particulate flows by the Eulerian–Lagrangian approach NA Patankar, DD Joseph International journal of multiphase flow 27 (10), 1659-1684, 2001 | 469 | 2001 |
Anisotropy in the wetting of rough surfaces Y Chen, B He, J Lee, NA Patankar Journal of colloid and interface science 281 (2), 458-464, 2005 | 394 | 2005 |
Immersed finite element method and its applications to biological systems WK Liu, Y Liu, D Farrell, L Zhang, XS Wang, Y Fukui, N Patankar, Y Zhang, ... Computer methods in applied mechanics and engineering 195 (13-16), 1722-1749, 2006 | 356 | 2006 |
Contact angle hysteresis on rough hydrophobic surfaces B He, J Lee, NA Patankar Colloids and Surfaces A: Physicochemical and Engineering Aspects 248 (1-3 …, 2004 | 337 | 2004 |
Design of surface hierarchy for extreme hydrophobicity Y Kwon, N Patankar, J Choi, J Lee Langmuir 25 (11), 6129-6136, 2009 | 308 | 2009 |
A fast computation technique for the direct numerical simulation of rigid particulate flows N Sharma, NA Patankar Journal of Computational Physics 205 (2), 439-457, 2005 | 287 | 2005 |
Immersed methods for fluid–structure interaction BE Griffith, NA Patankar Annual review of fluid mechanics 52 (1), 421-448, 2020 | 231 | 2020 |
Rapid deceleration-driven wetting transition during pendant drop deposition on superhydrophobic surfaces HM Kwon, AT Paxson, KK Varanasi, NA Patankar Physical review letters 106 (3), 036102, 2011 | 218 | 2011 |
A numerical method for fully resolved simulation (FRS) of rigid particle–flow interactions in complex flows SV Apte, M Martin, NA Patankar Journal of Computational Physics 228 (8), 2712-2738, 2009 | 215 | 2009 |
Supernucleating surfaces for nucleate boiling and dropwise condensation heat transfer NA Patankar Soft Matter 6 (8), 1613-1620, 2010 | 211 | 2010 |
Mechanical properties of a bio-inspired robotic knifefish with an undulatory propulsor OM Curet, NA Patankar, GV Lauder, MA MacIver Bioinspiration & biomimetics 6 (2), 026004, 2011 | 208 | 2011 |
Consolidation of hydrophobic transition criteria by using an approximate energy minimization approach NA Patankar Langmuir 26 (11), 8941-8945, 2010 | 200 | 2010 |