Analytical solutions for velocity, temperature and concentration distribution in electroosmotic microchannel flows of a non-Newtonian bio-fluid S Das, S Chakraborty Analytica chimica acta 559 (1), 15-24, 2006 | 385 | 2006 |
PDMS microfluidics: A mini review K Raj M, S Chakraborty Journal of Applied Polymer Science 137 (27), 48958, 2020 | 345 | 2020 |
Electroosmotically driven capillary transport of typical non-Newtonian biofluids in rectangular microchannels S Chakraborty Analytica Chimica Acta 605 (2), 175-184, 2007 | 246 | 2007 |
Electroosmosis-modulated peristaltic transport in microfluidic channels A Bandopadhyay, D Tripathi, S Chakraborty Physics of Fluids 28 (5), 2016 | 156 | 2016 |
Dynamics of capillary flow of blood into a microfluidic channel S Chakraborty Lab on a Chip 5 (4), 421-430, 2005 | 151 | 2005 |
Augmentation of peristaltic microflows through electro-osmotic mechanisms S Chakraborty Journal of Physics D: Applied Physics 39 (24), 5356, 2006 | 150 | 2006 |
Microchannel flow control through a combined electromagnetohydrodynamic transport S Chakraborty, D Paul Journal of Physics D: Applied Physics 39 (24), 5364, 2006 | 143 | 2006 |
An enthalpy-based lattice Boltzmann model for diffusion dominated solid–liquid phase transformation D Chatterjee, S Chakraborty Physics Letters A 341 (1-4), 320-330, 2005 | 141 | 2005 |
A hybrid lattice Boltzmann model for solid–liquid phase transition in presence of fluid flow D Chatterjee, S Chakraborty Physics Letters A 351 (4-5), 359-367, 2006 | 138 | 2006 |
An enthalpy-based hybrid lattice-Boltzmann method for modelling solid–liquid phase transition in the presence of convective transport S Chakraborty, D Chatterjee Journal of Fluid Mechanics 592, 155-175, 2007 | 129 | 2007 |
A paper based self-pumping and self-breathing fuel cell using pencil stroked graphite electrodes RK Arun, S Halder, N Chanda, S Chakraborty Lab on a Chip 14 (10), 1661-1664, 2014 | 127 | 2014 |
Thermal characteristics of electromagnetohydrodynamic flows in narrow channels with viscous dissipation and Joule heating under constant wall heat flux R Chakraborty, R Dey, S Chakraborty International Journal of Heat and Mass Transfer 67, 1151-1162, 2013 | 126 | 2013 |
Microfluidics and nanofluidics handbook: fabrication, implementation, and applications SK Mitra, S Chakraborty Taylor & Francis, 2012 | 120 | 2012 |
Modeling of a domestic frost-free refrigerator JK Gupta, MR Gopal, S Chakraborty International Journal of refrigeration 30 (2), 311-322, 2007 | 119 | 2007 |
A generalized formulation for evaluation of latent heat functions in enthalpy-based macroscopic models for convection-diffusion phase change processes S Chakraborty, P Dutta Metallurgical and Materials Transactions 32 (3), 562, 2001 | 119 | 2001 |
Hydraulic jumps due to oblique impingement of circular liquid jets on a flat horizontal surface RP Kate, PK Das, S Chakraborty Journal of Fluid Mechanics 573, 247-263, 2007 | 116 | 2007 |
Measurement of CO2, CO, SO2, and NO emissions from coal-based thermal power plants in India N Chakraborty, I Mukherjee, AK Santra, S Chowdhury, S Chakraborty, ... Atmospheric Environment 42 (6), 1073-1082, 2008 | 113 | 2008 |
Electrokinetically modulated peristaltic transport of power-law fluids P Goswami, J Chakraborty, A Bandopadhyay, S Chakraborty Microvascular research 103, 41-54, 2016 | 106 | 2016 |
Microfluidics and microfabrication S Chakraborty Springer, 2010 | 98 | 2010 |
Streaming-field-induced convective transport and its influence on the electroviscous effects in narrow fluidic confinement beyond the Debye-Hückel limit S Chakraborty, S Das Physical Review E—Statistical, Nonlinear, and Soft Matter Physics 77 (3 …, 2008 | 98 | 2008 |