Publications | Jeevanjyoti Chakraborty

Mechanical Engineering Department, Indian Institute of Technology Kharagpur


Journals

  1. A. Sengupta and J. Chakraborty “Surface effects in cylindrical anode particles: Mechanical versus electrochemical performance determined by charging condition in lithium-ion batteries”, Journal of Applied Physics 130, 234901 (2021).

  2. P. Karan, J. Chakraborty, S. Chakraborty “Generalization of elastohydrodynamic interactions between a rigid sphere and a nearby soft wall”, Journal of Fluid Mechanics 923, A32 (2021).

  3. P. Karan, J. Chakraborty, S. Chakraborty, Steven T. Wereley, I. C. Christov “Profiling a soft solid layer to passively control the conduit shape in a compliant microchannel during flow”, Physical Review E 104, 015108 (2021).

  4. J. Chakraborty, J. Luo, R. J. Dyson “Lockhart with a twist: Modelling cellulose microfibril deposition and reorientation reveals twisting plant cell growth mechanisms”, Journal of Theoretical Biology 525, 110736 (2021).

  5. A. Bhowmick and J. Chakraborty “Improving predictions of amorphous-crystalline silicon interface velocity through alloying-dealloying reactions in lithium-ion battery anode particles”, International Journal of Solids and Structures 224, 111046 (2021).

  6. R. H. Yeerella, H. S. S. Boddeda, A. Sengupta, J. Chakraborty “Role of in situ electrode environments in mitigating instability-induced battery degradation”, Journal of Applied Physics 128, 234901 (2020).

  7. P. Karan, S. S. Das, R. Mukherjee, J. Chakraborty, and S. Chakraborty “Flow and deformation characteristics of a flexible microfluidic channel with axial gradients in wall elasticity”, Soft Matter 16, 5777-5786 (2020).

  8. P. Karan, J. Chakraborty, and S. Chakraborty “Influence of non-hydrodynamic forces on the elastic response of an ultra-thin soft coating under fluid-mediated dynamic loading”, Physics of Fluids 32, 022002 (2020).     [PDF]

  9. A. Sengupta and J. Chakraborty “Geometry and charging rate sensitively modulate surface stress-induced stress relaxation within cylindrical silicon anode particles in lithium-ion batteries”, Acta Mechanica 231, 999–1019 (2020)

  10. J. K. Dora, A. Sengupta, S. Ghosh, N. Yedla, and J. Chakraborty “Stress evolution with concentration-dependent compositional expansion in a silicon lithium-ion battery anode particle”, Journal of Solid State Electrochemistry 23, 2331–2342 (2019).

  11. P. Karan, J. Chakraborty and S. Chakraborty “Electrokinetics over hydrophobic surfaces”, Electrophoresis 40, 616–624 (2019).
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  12. S. Neogi and J. Chakraborty “Size-dependent effects sensitively determine buckling of a cylindrical silicon electrode particle in a lithium-ion battery”, Journal of Applied Physics 124, 154302 (2018).     [PDF]
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  13. M. Kumar, J. Chakraborty and P. K. Das “Interdiffusion across electrode-electrolyte interface in solid oxide fuel cell incorporating the finite size effect of the ions”, Journal of the Electrochemical Society 165, F1184-F1191 (2018).
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  14. P. Karan, J. Chakraborty and S. Chakraborty “Small-scale flow with deformable boundaries”, Journal of the Indian Institute of Science 98, 159-183 (2018).
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  15. Kiran Raj M., J. Chakraborty, S. DasGupta and S. Chakraborty “Flow-induced deformation in a microchannel with a non-Newtonian fluid”, Biomicrofluidics 12, 034116 (2018).     [PDF]
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  16. K. G. Naik, J. Chakraborty and S. Chakraborty “Finite size effects of ionic species sensitively determine load bearing capacities of lubricated systems under combined influence of electrokinetics and surface compliance”, Soft Matter 13, 6422-6429 (2017).
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  17. P. Goswami, J. Chakraborty, A. Bandopadhyay and S. Chakraborty “Electrokinetically modulated peristaltic transport of power-law fluids”, Microvascular Research 103, 41-54 (2016).
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  18. J. Chakraborty, C. P. Please, A. Goriely and S. J. Chapman, “Influence of constraints on axial growth reduction of cylindrical Li-ion battery electrode particles”, J. Power Sources 279, 746-758 (2015).
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  19. J. Chakraborty, C. P. Please, A. Goriely and S. J. Chapman, “Combining mechanical and chemical effects in the deformation and failure of a cylindrical electrode particle in a Li-ion battery”, Int. J. Solids Struct. 54, 66-81 (2015).
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  20. T. Ghonge, J. Chakraborty, R. Dey and S. Chakraborty, “Electrohydrodynamics within the electrical double layer in the presence of finite temperature gradients”, Phys. Rev. E 88, 053020 (2013).
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  21. J. Chakraborty and S. Chakraborty, “Influence of hydrophobic effects on streaming potential”, Phys. Rev. E 88, 043007 (2013).
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  22. U. Mukherjee, J. Chakraborty and S. Chakraborty, “Relaxation characteristics of a compliant microfluidic channel under electroosmotic flow”, Soft Matter 9, 1562-1569 (2013).
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  23. A. Shenoy, J. Chakraborty and S. Chakraborty, “Influence of streaming potential on pulsatile pressure-gradient driven flow through an annulus”, Electrophoresis 34, 691-699 (2013).
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  24. J. Chakraborty, R. Dey and S. Chakraborty, “Consistent accounting of steric effects for prediction of streaming potential in narrow confinements”, Phys. Rev. E 86, 061504 (2012).
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  25. J. Chakraborty, S. Pati, S. K. Som and S. Chakraborty, “Consistent description of electrohydrodynamics in narrow fluidic confinements in the presence of hydrophobic interactions”, Phys. Rev. E 85, 046305 (2012).
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  26. M. Mayur, D. Chakraborty, J. Chakraborty and S. Chakraborty, “Surface-charge-induced alteration of nanovortex patterning in nanoscale confinements with patterned wettability gradients”, Phys. Rev. E 85, 016315 (2012). (Figure 9D of this paper was selected to be displayed on the Physical Review E website as part of the January, 2012 Kaleidoscope feature.)
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  27. J. Chakraborty, S. Ray and S. Chakraborty, “Role of streaming potential on pulsating mass flow rate control in combined electroosmotic and pressure-driven microfluidic devices”, Electrophoresis 33, 419-425 (2012). (Selected as one of five featured articles from Issue 3, 2012)
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  28. J. Chakraborty and S. Chakraborty, “Combined influence of streaming potential and substrate compliance on the load capacity of a planar slider bearing”, Phys. Fluids 23, 082004 (2011).
     
  29. J. Chakraborty and S. Chakraborty, “Influence of streaming potential on the elastic response of a compliant microfluidic substrate subjected to dynamic loading”, Phys. Fluids 22, 122002 (2010).
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Conferences

  1. R. Agarwal, N. Desai, J. Chakraborty, R. Dey and S. Chakraborty, “Thermal characteristics of streaming potential mediated flows of non-Newtonian fluids with asymmetric boundary conditions and steric effect”, Proceedings of the 22nd National and 11th ISHMT-ASME Heat and Mass Transfer Conference, Dec. 28-31, 2013, IIT Kharagpur (Paper ID: HMTC1300342).
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  2. R. Dey, J. Chakraborty and 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”, Proceedings of the 3rd European Conference on Microfluidics - Microfluidics 2012, Dec. 3-5, 2012, Heidelberg (Paper ID: μFLU12-60).
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  3. R. Dey, J. Chakraborty and S. Chakraborty, “Heat transfer characteristics of non-Newtonian fluid flows in narrow confinements considering the effects of streaming potential”, Proceedings of the 21st National and 10th ISHMT-ASME Heat and Mass Transfer Conference, Dec. 27-30, 2011, IIT Madras (Paper ID:ISHMT_IND_14_011).
 

Book Chapters

  1. J. Chakraborty and S. Chakraborty,  in Micro and Smart Devices and Systems, edited by K. J. Vinoy, G. K. Ananthasuresh, Rudra Pratap, and S. B. Krupanidhi (Springer, India, 2014), Ch. 20, pp. 339-354.
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  2. S. Das, J. Chakraborty, and S. Chakraborty,  in Microfluidics and Microscale Transport Processes, edited by S. Chakraborty (CRC Press, Boca Raton, 2012), Ch. 3, pp. 49-110.
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  3. J. Chakraborty and S. Chakraborty, in Mechanics over Micro and Nano Scales, edited by S. Chakraborty (Springer, New York, 2011), Ch 1, pp. 1-60.