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B.E.(Biotechnology)
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Siddhartha Tripathi

goa Mechanical Engineering

Assistant Professor, Gr-I

Bio-microfluidics, Fluid Mechanics, Microfluidics, Refrigeration and Air Conditioning
E-105, NAB, Near Workshop Bits-Pilani KK Birla Goa Campus , Goa
siddharthat@goa.bits-pilani.ac.in
siddhartha.tripathi17@gmail.com
0832-2580270
+91-9322241031
https://www.linkedin.com/in/siddhartha-tripathi-1b561923/?originalSubdomain=in

Publications

  • S Mane, P Jacob, V Hemadri, P Dey, S Bhand, S Tripathi (2024), Characterization of the phagocytic ability of white blood cells separated using a single curvature spiral microfluidic device, Biomedical Engineering Letters,14 (6), 1409-1419.
  • DB Puri, P Jacob, V Hemadri, A Banerjee, S Tripathi (2024), Exploring sperm cell rheotaxis in microfluidic channel: the role of flow and viscosity, Physical Biology, 21 (6), 066001.
  • NS Mane, P Kodancha, V Hemadri, S Tripathi (2024), Investigation on Cooling Performance of Composite PCM and Graphite Fin for Battery Thermal Management System of Electric Vehicles, Energy Storage 6 (6), e70024.
  • Kodancha,P., Sow,P.K., Tripathi,S., Hemadri,V. (2024), Investigation of droplet boiling on superhydrophilic CuO multiscale hierarchical structured surfaces, International Journal of Thermal Sciences, 201.
  • Mane, S., Behera, A., Hemadri, V. , Bhand, S., Tripathi, S. (2024), Micropump integrated white blood cell separation platform for detection of chronic granulomatous disease. Microchim Acta, 191, 295.
  • Puri, D.B., Kumar, S.S., Hemadri, V. , Banerjee, A., Tripathi, S. (2024), Analysis of sperm cell motion in high viscosity Newtonian and non-Newtonian fluids using a microfluidic channel. Microfluid Nanofluid 28, 11.
  • Mane, N. S., Hemadri, V., & Tripathi, S., Exploring the role of biopolymers and surfactants on the electrical conductivity of water-based CuO, Fe3O4, and hybrid nanofluids. Journal of Dispersion Science and Technology45(5), 900–908, 2023.
  • Behera, A., Mane, S., V. Hemadri, S. Bhand and S. Tripathi, (2023), White Blood Cell Separation for On-Chip Detection of Myeloperoxidase Activity Using a Microfluidic Platform, IEEE Sensors Letters, vol. 7, no. 12, pp. 1-4.
  • Mane, S., Hemadri, V. & Tripathi, S. (2023), Investigating WBC margination in different microfluidic geometries: Effect of RBC size and shape. Journal of micromechanics and Microengineering,33, 065002.
  • Mane, S., Hemadri, V. & Tripathi, S. (2022), Separation of White Blood Cells in a Wavy Type Microfluidic Device Using Blood Diluted in a Hypertonic Saline Solution. BioChip J., 16, 291-304.
  • Mane, N.S., Puri, D.B., Mane, S.  Hemadri, V., Banerjee, A., Tripathi,S. (2022), Separation of motile human sperms in a T-shaped sealed microchannel.  Eng. Lett. 12, 331–342.
  • Laxmi,V.,  Tripathi, S.,  Amit A. (2021), Current Status of the Development of Blood-Based Point-of-Care Microdevices pp 169-196, Book Chapter - Mechanical Sciences-The way forward,Springer.
  • Tripathi, S., Agrawal, A.,(2020)," Blood Plasma Microfluidic Device: Aiming for the Detection of COVID-19 Antibodies Using an On-Chip ELISA Platform". Transactions of Indian National Academy of Engineering, 5, 217–220. 
  • Laxmi,V., Tripathi, S., Joshi, S.S., and Agrawal, A. (2020), “  Separation and enrichment of platelets from whole blood using PDMS based microfluidic device", Journal of Industrial & Engineering Chemistry, 59,10,4792-4801.
  • Rajawat A., Tripathi, S., (2020), “Disease diagnostics using hydrodynamic flow focusing in microfluidic devices: beyond flow cytometry" , Biomedical Engineering Letters, 10, 241-257.
  • Laxmi,V., Tripathi, S., Joshi, S.S., and Agrawal, A. (2018), “Microfluidic technique for platelet separation and enrichment" , Journal of Indian Institute of Science, 98(2),185-200.
  • Tripathi, S., Kumar, B.V., Prabhakar, A., Joshi, S.S., and Agrawal, A. (2016), “Microdevice for plasma separation from whole human blood using bio-physical and geometrical effects”, Scientific Reports, 6,26749.
  • Tripathi, S., Kumar, Y. V. B. V., and Agrawal, A. (2016). “Separation in Microfluidic devices: A case study on hydrodynamic blood plasma separation technique”,Annals of the Indian National Academy of Engineering (INAE), Vol. XIII.
  • Tripathi, S., Kumar, A., Kumar, Y. V. B. V., & Agrawal, A. (2016). “Three-dimensional hydrodynamic flow focusing of dye, particles and cells in a microfluidic device by employing two bends of opposite curvature”, Microfluidics and Nanofluidics, 20(2), 1-14. 
  • Tripathi, S., Kumar, B.V., Prabhakar, A., Joshi, S.S., and Agrawal, A. (2015), "Passive blood plasma separation at the microscale: A review of design principles and microdevices”, Journal of Micromechanics and Microengineering, 25(8), 083001. (Invited review) 
  • Tripathi, S., Kumar, B.V., Prabhakar, A., Joshi, S.S., and Agrawal, A. (2015), "Performance study of microfluidic device for blood plasma separation - A designer's perspective," Journal of Micromechanics and Microengineering, 25(8), 084004.
  • Prabhakar, A., Kumar, B.V., Tripathi, S., and Agrawal, A. (2015), "A novel, compact and efficient microchannel arrangement with multiple hydrodynamic effects for blood plasma separation”, Microfluidics and Nanofluidics, 18(5-6), 995-1006.
  • Tripathi, S., P. Chakravarty, P., and Agrawal, A. (2014), “On non-monotonic variation of hydrodynamic focusing width in a rectangular microchannel”, Current Science, 107(8), 12601274.
  • Tripathi, S., Prabhakar, A., Kumar, N., Singh, S.G., and Agrawal, A. (2013), "Blood plasma separation in elevated dimension T-shaped microchannel”, Biomedical Microdevices, 15 (3), 415-425.  

 

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