Follow
Jayabrata Dhar
Title
Cited by
Cited by
Year
Electroosmosis of viscoelastic fluids: Role of wall depletion layer
S Mukherjee, SS Das, J Dhar, S Chakraborty, S DasGupta
Langmuir 33 (43), 12046-12055, 2017
452017
Ion-size dependent electroosmosis of viscoelastic fluids in microfluidic channels with interfacial slip
S Mukherjee, P Goswami, J Dhar, S Dasgupta, S Chakraborty
Physics of Fluids 29 (7), 2017
312017
Alterations in streaming potential in presence of time periodic pressure‐driven flow of a power law fluid in narrow confinements with nonelectrostatic ion–ion interactions
J Dhar, U Ghosh, S Chakraborty
Electrophoresis 35 (5), 662-669, 2014
302014
Effects of solvent-mediated nonelectrostatic ion-ion interactions on a streaming potential in microchannels and nanochannels
A Bandopadhyay, J Dhar, S Chakraborty
Physical Review E—Statistical, Nonlinear, and Soft Matter Physics 88 (3 …, 2013
302013
Self-regulation of phenotypic noise synchronizes emergent organization and active transport in confluent microbial environments
J Dhar, ALP Thai, A Ghoshal, L Giomi, A Sengupta
Nature Physics 18 (8), 945-951, 2022
242022
Resolving anomalies in predicting electrokinetic energy conversion efficiencies of nanofluidic devices
S Majumder, J Dhar, S Chakraborty
Scientific Reports 5 (1), 14725, 2015
222015
Electro-thermally driven transport of a non-conducting fluid in a two-layer system for MEMS and biomedical applications
G Kunti, J Dhar, A Bhattacharya, S Chakraborty
Journal of Applied Physics 123 (24), 2018
192018
Patterned surface charges coupled with thermal gradients may create giant augmentations of solute dispersion in electro-osmosis of viscoelastic fluids
S Mukherjee, J Dhar, S DasGupta, S Chakraborty
Proceedings of the Royal Society A 475 (2221), 20180522, 2019
182019
Joule heating-induced particle manipulation on a microfluidic chip
G Kunti, J Dhar, A Bhattacharya, S Chakraborty
Biomicrofluidics 13 (1), 2019
182019
Directionally controlled open channel microfluidics
G Kunti, J Dhar, A Bhattacharya, S Chakraborty
Physics of Fluids 31 (9), 2019
172019
Convective dissolution of carbon dioxide in two-and three-dimensional porous media: The impact of hydrodynamic dispersion
J Dhar, P Meunier, F Nadal, Y Méheust
Physics of Fluids 34 (6), 2022
152022
Electro-capillary effects in capillary filling dynamics of electrorheological fluids
J Dhar, U Ghosh, S Chakraborty
Soft Matter 11 (35), 6957-6967, 2015
142015
Active reconfiguration of cytoplasmic lipid droplets governs migration of nutrient-limited phytoplankton
A Sengupta, J Dhar, F Danza, A Ghoshal, S Müller, N Kakavand
Science Advances 8 (44), eabn6005, 2022
122022
Energy-efficient generation of controlled vortices on low-voltage digital microfluidic platform
G Kunti, J Dhar, S Bandyopadhyay, A Bhattacharya, S Chakraborty
Applied Physics Letters 113 (12), 2018
122018
Electro-osmosis of nematic liquid crystals under weak anchoring and second-order surface effects
A Poddar, J Dhar, S Chakraborty
Physical Review E 96 (1), 013114, 2017
122017
Oscillatory regimes of capillary imbibition of viscoelastic fluids through concentric annulus
J Dhar, P Jaggi, S Chakraborty
RSC advances 6 (65), 60117-60125, 2016
122016
Electro-osmosis of electrorheological fluids
J Dhar, A Bandopadhyay, S Chakraborty
Physical Review E—Statistical, Nonlinear, and Soft Matter Physics 88 (5 …, 2013
122013
Electrically modulated capillary filling imbibition of nematic liquid crystals
J Dhar, S Chakraborty
Physical Review E 97 (4), 043107, 2018
92018
The effect of the finite size of ions and Debye layer overspill on the screened Coulomb interactions between charged flat plates
A Paul, S Mukherjee, J Dhar, S Ghosal, S Chakraborty
Electrophoresis 41 (7-8), 607-614, 2020
72020
Universal oscillatory dynamics in capillary filling
J Dhar, S Mukherjee, S Chakraborty
Europhysics Letters 125 (1), 14003, 2019
62019
The system can't perform the operation now. Try again later.
Articles 1–20