| Capillary flow enhancement in rectangular polymer microchannels with a deformable wall R Anoop, AK Sen Physical Review E 92 (1), 013024, 2015 | 20 | 2015 |
| Elastocapillary powered manipulation of liquid plug in microchannels D George, R Anoop, AK Sen Applied Physics Letters 107 (26), 261601, 2015 | 12 | 2015 |
| Influence of textural statistics on drag reduction by scalable, randomly rough superhydrophobic surfaces in turbulent flow A Rajappan, K Golovin, B Tobelmann, V Pillutla, Abhijeet, W Choi, ... Physics of Fluids 31 (4), 042107, 2019 | 9 | 2019 |
| Plastron regeneration on submerged superhydrophobic surfaces using in situ gas generation by chemical reaction D Panchanathan, A Rajappan, KK Varanasi, GH McKinley ACS applied materials & interfaces 10 (39), 33684-33692, 2018 | 9 | 2018 |
| Epidermal biopolysaccharides from plant seeds enable biodegradable turbulent drag reduction A Rajappan, GH McKinley Scientific reports 9 (1), 1-14, 2019 | 1 | 2019 |
| Superhydrophobic and polymer drag reduction in turbulent Taylor-Couette flow A Rajappan, GH McKinley APS, F22. 005, 2017 | 1 | 2017 |
| Turbulent drag reduction using biopolymers and bio-inspired superhydrophobic surfaces A Rajappan, GH McKinley APS, Q23. 001, 2019 | | 2019 |
| Plant-Sourced Polysaccharides for Turbulent Drag Reduction A Rajappan, G McKinley APS 2019, X52. 007, 2019 | | 2019 |
| Skin friction drag reduction in turbulent flows using superhydrophobic surfaces A Rajappan Massachusetts Institute of Technology, 2017 | | 2017 |
Gareth McKinleyProfessor of Mechanical Engineering, MITVerified email at mit.edu
