Microfluidics Lab

Faculty-In-Charge

Lab Overview

Microfluidics lab focuses on providing practical knowledge and experimental insights into understanding fluid flow at micro-scale, studying cell dynamics, & cell separation. The lab is designed to support cutting-edge research in the field of bio-microfluidics, enabling the development of Point-of care devices for biological and medical applications.

Key Research Areas

Bio-microfluidics
Cell separation
Cell dynamics
Point-of-Care microdevices

Significant Facilities & Special Features

PDMS-based microfluidic device fabrication using soft-lithography
Surface treatment and bonding using a plasma cleaner
Microscale flow visualization with microscopy
Cell counting

Major Equipment

Other facilities:

Hot air oven
PH measurement
Colorimeter
Vacuum pump
Laminar Air Flow
Medical Refrigerators

Research Funding & Grants

Microfluidics sperm cell sorting device: addressing male infertility factor (SERB-DST 2020-2022)
Isolation of white blood cells in a microfluidic device (ACRG BITS-Pilani 2019-21)
Isolation of white blood cells in a microfluidic device with applications to point-of-care diagnostics (BITS-BioCyTiH foundation (DST) 2022-24)
Microfluidic device for blood plasma separation and detection of Rheumatoid arthritis markers (CDRF BITS-Pilani 2024-25)

Achievements

Publications:

Mane, S., Jacob, P., Hemadri, V., Dey, P., Bland, S., Tripathi, S., Characterization of the phagocytic ability of white blood cells separated using a single curvature spiral microfluidic device. Biomed. Eng. Lett. 2024
Mane, S., Behera, A., Hemadri, V., Bhand, S., Tripathi, S., Micropump integrated white blood cell separation platform for detection of chronic granulomatous disease. Microchim. Acta 191, 295, 2024
Puri, D.B., Kumar, S.S., Hemadri, V., Banerjee, A., Tripathi, S., Analysis of sperm cell motion in high viscosity Newtonian and non-Newtonian fluids using a microfluidic channel. Microfluid Nanofluid 28 (3),11, 2024
Behera, A., Mane, S., Hemadri, V., Bhand, S., Tripathi, S., White Blood Cell Separation for On-Chip Detection of Myeloperoxidase Activity Using a Microfluidic Platform. IEEE Sensors Letters, 7(12), 1-4, 2023
Mane, S., Hemadri, V. & Tripathi, S., Investigating WBC margination in different microfluidic geometries: Effect of RBC size and shape. Journal of micromechanics and Microengineering,33, 065002, 2023
Mane, S., Hemadri, V. & Tripathi, S., Separation of White Blood Cells in a Wavy Type Microfluidic Device Using Blood Diluted in a Hypertonic Saline Solution. BioChip J, 2022
Mane, N.S., Puri, D.B., Mane, S., Hemadri, V., Banerjee, A., Tripathi,S., Separation of motile human sperms in a T-shaped sealed microchannel. Biomed. Eng. Lett. 12, 331–342, 2022
Rajawat A., Tripathi, S., Disease diagnostics using hydrodynamic flow focusing in microfluidic devices: beyond flow cytometry, Biomed. Eng. Lett. 10, 241-257, 2020

Patents:

Mane, P. Jacob, V. hemadri, S. Bhand, S. Tripathi, Spiral microfluidic device for white blood cell separation from human blood, Indian Patent, Appl no. 20231104822

Recognition:

PROF. M.G. Deshpande Award BEST PAPER Award in Academia Effect of Newtonian and shear thinning medium on human sperm motion within a microchannel” Fluid Mechanics and Fluid Power, 48th National conference, 27th-29th Dec 2021

Integrated First Degree

Higher Degree

Doctoral Programmes

WILP

Dubai Campus

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