31. C. M. Buness, A. Rana, C. C. Maass*, R. Dey*
30. A. S. Vivek, R. Dey*, H. N. Dixit*
29. B. N. Radhakrishnan, A. Purushothaman, R. Dey, S. P. Thampi
Confinement induced three-dimensional trajectories of microswimmers in rectangular channels, arXiv preprint- arXiv:2311.05757, 2023
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28 |
R. Dey*, C. M. Buness, B. V. Hokmabad, C. Jin, C. C. Maass* |
Oscillatory rheotaxis of artificial swimmers in microchannels, Nature Communications 13 (1), 1-10, 2022. (Editors’ highlight under applied physics and mathematics) |
| 27 | B. V. Hokmabad, R. Dey, M. Jalaal, D. Mohanty, M. Almukambetova, K. A. Baldwin, D. Lohse, C. C. Maass | Emergence of bimodal motility in active droplets, Physical Review X 11 (1), 011043, 2021. |
| 26 | H. Hoek, R. Dey, F. Mugele | Electrowetting-controlled dropwise condensation with patterned electrodes: Physical principles, modeling, and application perspectives for fog harvesting and enhanced heat transfer, Advanced Materials Interfaces 8 (2), 2001317, 2021. |
| 25 | H. Wu, R. Dey, I. Siretanu, D. van den Ende, L. Shui, G. Zhou, F. Mugele | Electrically controlled localized charge trapping at amorphous fluoropolymer-electrolyte interfaces, Small 16 (2), 1905726, 2020. |
| 24 | A. A. Dev, R. Dey, F. Mugele | Behaviour of flexible superhydrophobic striped surfaces during (electro-) wetting of a sessile drop, Soft Matter 15 (48), 9840, 2019. (Cover article) |
| 23 | R. Dey, M van Gorcum, F. Mugele, J. H. Snoeijer, | Soft electrowetting, Soft Matter 15, 6469, 2019. (Recommended for Cover article) |
| 22 | R. Dey, J. Gilbers, D. Baratian, H. Hoek, D. van den Ende, F. Mugele | Controlling shedding characteristics of condensate drops using electrowetting, Applied Physics Letters 113 (24), 243703, 2018. (Selected as `Editor’s pick’) |
| 21 | D. Baratian*, R. Dey*, H. Hoek, D. van den Ende, F. Mugele | Breath Figures under Electrowetting: Electrically Controlled Evolution of Drop Condensation Patterns, Physical Review Letters 120 (21), 214502, 2018. (*joint first authors) |
| 20 | J. Gao*, N. Mendel*, R. Dey*, D. Baratian, F. Mugele | Contact angle hysteresis and oil film lubrication in electrowetting with two immiscible liquids, Applied Physics Letters 112 (20), 203703, 2018. (*Equal contribution) |
| 19 | S. Bandyopadhyay, R. Dey, M. K. Raj, N. Bhandaru, R. Mukherjee, S. Chakraborty | Mixing characteristics in microchannels with biomimetic superhydrophobic (Lotus leaf replica) walls, Microfluidics and Nanofluidics 21(9), 152, 2017. |
| 18 | R. Dey, S. DasGupta, S. Chakraborty | Electrically modulated wetting of drops on soft dielectric elastomer films, Microfluidics and Nanofluidics 21(3), 48, 2017. |
| 17 | R. Dey, U. U. Ghosh, S. DasGupta, S. Chakraborty | Dynamics of electrically modulated colloidal droplet transport, Langmuir 31(41), 11269, 2015. |
| 16 | R. Dey, A. Daga, S. DasGupta, S. Chakraborty | Electrically modulated dynamic spreading of drops on soft surfaces, Applied Physics Letters 107 (3), 034101, 2015. |
| 15 | R. Dey, V. A. Shaik, D. Chakraborty, S. Ghosal, S. Chakraborty | AC electric field induced trapping of microparticles in pinched microconfinements, Langmuir 31 (21), 5952 2015. |
| 14 | R. Dey, S. Kar, S. Joshi, T. K. Maiti, S. Chakraborty | Ultra-low-cost `paper-and-pencil’ device for electrically controlled micromixing of analytes, Microfluidics and Nanofluidics 19 (2), 375, 2015. |
| 13 | R. Dey, K. Raj M., N. Bhandaru, R. Mukherjee, S. Chakraborty | Tunable hydrodynamic characteristics through microchannels with biomimetic superhydrophobic wall, Soft Matter 10 (19), 3451, 2014. (recommended for Cover article) |
| 12 | R Chakraborty, R. Dey, S Chakraborty | Thermal characteristics of electromagnetohydrodynamic flows in narrow channels with viscous dissipation and Joule heating under constant wall heat flux, International Journal of Heat and Mass Transfer 67, 1151, 2013. |
| 11 | T. Ghonge*, J. Chakraborty*, R. Dey*, S. Chakraborty | Electrohydrodynamics within the electrical double layer in the presence of finite temperature gradients, Physical Review E 88, 053020, 2013. (*Equal contribution) |
| 10 | R. Dey, T. Ghonge, S. Chakraborty | Steric-effect-induced alteration of thermal transport phenomenon for mixed electroosmotic and pressure-driven flows through narrow confinements, International Journal of Heat and Mass Transfer 56, 251, 2013. |
| 9 | J. Chakraborty, R. Dey, S. Chakraborty | Consistent accounting of steric effects for prediction of streaming potential in narrow confinements, Physical Review E 86, 061504, 2012. |
| 8 | R. Dey, S. Chakraborty, S. DasGupta | Thermally activated control of microfluidic friction, Applied Physics Letters 101 (13), 134101, 2012. |
| 7 | P. Mandal, R. Dey, S. Chakraborty | Electrokinetics with paper-and-pencil devices, Lab-on-a-Chip 12, 4026, 2012. |
| 6 | R. Dey, D. Chakraborty, S. Chakraborty | Extended graetz problem for combined electroosmotic and pressure-driven flows in narrow confinements with thick electric double layers, International Journal of Heat and Mass Transfer 55, 4724, 2012. |
| 5 | R. Dey, T. Das, S. Chakraborty | Frictional and heat transfer characteristics of single-phase microchannel liquid flows, Heat Transfer Engineering 33(4–5), 425, 2012. |
| 4 | R. Dey, D. Chakraborty, S. Chakraborty | Analytical solution for thermally fully developed combined electroosmotic and pressure driven flow in narrow confinements with thick electric double layers, ASME Journal of Heat Transfer 133, 024503, 2011. |
| 3 | R. Agarwal, N. Desai, J. Chakraborty, R. Dey, S. Chakraborty | Thermal characteristics of streaming potential mediated flows of non-Newtonian fluids with asymmetric boundary conditions and steric effect, International Journal of Micro-Nano Scale Transport 4 (3-4), 147, 2013. |
| 2 | R. Dey, J. Chakraborty, S. Chakraborty | Combined interplay of steric effects and asymmetric zeta potential on electrokinetic transport of non-Newtonian fluids through narrow confinements: Studies on Streaming Potential, International Journal of Microscale and Nanoscale Thermal and Fluid Transport Phenomena 4 (3-4) 2013. |
| 1 | R. Dey, J. Chakraborty, S. Chakraborty | Heat transfer characteristics of non-Newtonian fluid flows in narrow confinements considering the effects of streaming potential, International Jounal of Micro-Nanoscale Transport 2 (4) 259 2011. |