Dr. Sreejith Rajan

Designation: Associate Professor

Education: Ph.D

Professional Experience

Teaching: 8 Years
Research: 6 Years

Specialization

UG : Electronics and Instrumentation Engineering

PG : Instrument Technology

Ph. D : Micro-Nanotechnology

Publications

Journals

  1. D Tuan Tran, F Malekpour Galogahi, NK Nguyen, U Roshan, KR Sreejith et al. (2025) Microfluidic Generation of Calcium Alginate Hydrogel Beads using External Gelation for Microalgae Cultivation, ChemNanoMat, 11(3), e202400549.
  2. AS Yadav, A Vashi, U Roshan, FM Galogahi, DT Tran, KR Sreejith et al. (2025) Continuous Dielectrophoretic Sorting of Liquid Beads, Sensors and Actuators B: Chemical, 435, 137627.
  3. S Apoorva, NT Nguyen, KR Sreejith (2024) Recent Developments and Future Perspectives of Microfluidics and Smart Technologies in Wearable Devices, Lab on a Chip, 24(7), 1833–1866.
  4. DT Tran, NK Nguyen, AS Yadav, A Chuang, M Burford, FM Galogahi, KR Sreejith et al. (2024) Calcium Alginate Core–Shell Liquid Beads Encapsulated with Microalgae for Wastewater Treatment, Advanced Energy and Sustainability Research, 5(7), 2400112.
  5. A Vashi, AS Yadav, NT Nguyen, KR Sreejith (2024) The Dynamics of Vertical Coalescence of Acoustically Levitated Droplets, Microfluidics and Nanofluidics, 28(5), 34.
  6. NK Nguyen, AS Yadav, A Chuang, M Burford, CH Ooi, KR Sreejith et al. (2024) Calcium Alginate Elastic Capsules for Microalgal Cultivation, RSC Advances, 14(22), 15441–15448.
  7. AS Yadav, FM Galogahi, A Vashi, DT Tran, GS Kijanka, H Cha, KR Sreejith et al. (2024) Synthesis and Active Manipulation of Magnetic Liquid Beads, Biomedical Microdevices, 26(2), 24.
  8. A Vashi, AS Yadav, NT Nguyen, KR Sreejith (2023) Parametric Analysis of Acoustically Levitated Droplet for Potential Microgravity Application, Applied Acoustics, 213, 109624.
  9. AS Yadav, FM Galogahi, A Vashi, CH Ooi, KR Sreejith, NT Nguyen (2023) Precise, Wide Field, and Low-Cost Imaging and Analysis of Core–Shell Beads for Digital Polymerase Chain Reaction, Lab on a Chip, 23(15), 3353–3360.
  10. NK Nguyen, P Singha, Y Dai, KR Sreejith, DT Tran, HP Phan, NT Nguyen et al. (2022) Controllable High-Performance Liquid Marble Micromixer, Lab on a Chip, 22(8), 1508–1518.
  11. A Vashi, KR Sreejith, NT Nguyen (2022) Lab-on-a-Chip Technologies for Microgravity Simulation and Space Applications, Micromachines, 14(1), 116.
  12. KR Sreejith, P Singha, NK Nguyen, CH Ooi, DV Dao, NT Nguyen (2022) Noninvasive Refilling of Liquid Marbles with Water for Microfluidic Applications, Applied Physics Letters, 120(6).
  13. T Takei, R Tomimatsu, T Matsumoto, KR Sreejith, NT Nguyen, M Yoshida (2022) Hydrophobically Modified Gelatin Particles for Production of Liquid Marbles, Polymers, 14(22), 4849.
  14. P Singha, NK Nguyen, VT Nguyen, KR Sreejith, DT Tran, AV Nguyen et al. (2022) Investigation of Liquid Marble Shell Using X-ray: Shell Thickness and Effective Surface Tension, ChemNanoMat, 8(1), e202100423.
  15. CH Ooi, R Vadivelu, J Jin, KR Sreejith, P Singha, NK Nguyen, NT Nguyen (2021) Liquid Marble-Based Digital Microfluidics – Fundamentals and Applications, Lab on a Chip, 21(7), 1199–1216.
  16. MFU Haque, SS Bukhari, R Ejaz, FU Zaman, KR Sreejith et al. (2021) RdRp-Based Colorimetric RT-LAMP Assay for Rapid Detection of SARS-CoV-2, Virus Research, 302, 198484.
  17. KR Sreejith, M Umer, L Dirr, B Bailly, P Guillon, M von Itzstein, N Soda et al. (2021) Portable Device for LAMP-Based Detection of SARS-CoV-2, Micromachines, 12(10), 1151.
  18. P Singha, NK Nguyen, KR Sreejith, H An, NT Nguyen, CH Ooi (2021) Effect of Core Liquid Surface Tension on the Liquid Marble Shell, Advanced Materials Interfaces, 8(5), 2001591.
  19. KR Sreejith, M Umer, P Singha, NK Nguyen, S Kasetsirikul, CH Ooi et al. (2021) Loop-Mediated Isothermal Amplification in Core-Shell Bead Assay for Detection of Tyrosine Kinase AXL Overexpression, Micromachines, 12(8), 905.
  20. S Kasetsirikul, M Umer, N Soda, KR Sreejith, MJA Shiddiky, NT Nguyen (2021) Paper-Based Immunofluorescent Device for Detection of SARS-CoV-2 Humanized Antibody, Preprints.
  21. S Kasetsirikul, M Umer, N Soda, KR Sreejith, MJA Shiddiky, NT Nguyen (2020) Detection of the SARS-CoV-2 Humanized Antibody with Paper-Based ELISA, Analyst, 145(23), 7680–7686.
  22. NK Nguyen, CH Ooi, P Singha, J Jin, KR Sreejith et al. (2020) Liquid Marbles as Miniature Reactors for Chemical and Biological Applications, Processes, 8(7), 793.
  23. KR Sreejith, L Gorgannezhad, J Jin, CH Ooi, T Takei, G Hayase et al. (2020) Core-Shell Beads Made by Composite Liquid Marble Technology as Versatile Microreactors for PCR, Micromachines, 11(3), 242.
  24. P Singha, CH Ooi, NK Nguyen, KR Sreejith et al. (2020) Capillarity: Revisiting the Fundamentals of Liquid Marbles, Microfluidics and Nanofluidics.
  25. J Jin, KR Sreejith, CH Ooi, DV Dao, NT Nguyen (2020) Critical Trapping Conditions for Floating Liquid Marbles, Physical Review Applied, 13(1), 014002.
  26. L Gorgannezhad, KR Sreejith et al. (2020) Core-Shell Beads as Microreactors for Phylogrouping of E. coli Strains, Micromachines.
  27. AJT Teo, F Malekpour-Galogahi, KR Sreejith et al. (2020) Surfactant-Free UV-Curable Core–Shell Microcapsules in Hydrophilic PDMS Microfluidic Device, AIP Advances.
  28. KR Sreejith, L Gorgannezhad, J Jin et al. (2019) Liquid Marbles as Biochemical Reactors for Polymerase Chain Reaction, Lab on a Chip, 19(19), 3220–3227.
  29. J Jin, CH Ooi, KR Sreejith et al. (2019) Dielectrophoretic Trapping of a Floating Liquid Marble, Physical Review Applied, 11(4), 044059.
  30. J Jin, CH Ooi, KR Sreejith et al. (2019) Accurate Dielectrophoretic Positioning of Floating Liquid Marbles, Microfluidics and Nanofluidics.
  31. KR Sreejith, CH Ooi, J Jin et al. (2019) Automated On-Demand Liquid Marble Generator Based on Electrohydrodynamic Pulling, Review of Scientific Instruments, 90(5).
  32. L Gorgannezhad, KR Sreejith et al. (2019) Microfluidic Array Chip for Parallel Detection of Waterborne Bacteria, Micromachines, 10(12), 883.
  33. KR Sreejith, CH Ooi, J Jin, DV Dao, NT Nguyen (2018) Digital Polymerase Chain Reaction Technology – Recent Advances and Future Perspectives, Lab on a Chip, 18(24), 3717–3732.
  34. KR Sreejith, CH Ooi, DV Dao, NT Nguyen (2018) Evaporation Dynamics of Liquid Marbles at Elevated Temperatures, RSC Advances, 8(28), 15436–15443.
  35. R Vadivelu, N Kashaninejad, KR Sreejith et al. (2018) Cryoprotectant-Free Freezing of Cells Using Liquid Marbles Filled with Hydrogel, ACS Applied Materials & Interfaces, 10(50), 43439–43449.
  36. CH Ooi, J Jin, KR Sreejith et al. (2018) Manipulation of Floating Liquid Marbles Using Dielectrophoresis, Lab on a Chip, 18(24), 3770–3779.
  37. KR Sreejith, PG Shyamkumar, PA Revathy, C Sreedevi (2015) A Low-Cost Automated Specific Heat Capacity Meter for Liquids, International Conference on Trends in Automation, Communications and Computing.
  38. R Tamizhanban, KR Sreejith, GR Jayanth (2014) Automated Pipette Puller for Fabrication of Glass Micropipettes, Review of Scientific Instruments, 85(5).
  39. KR Sreejith, K Sarath, PN Sahanas, NS Thalha (2012) Indirect Length Measurement Between Two Points on a Remote Plane, International Journal of Applied Information Systems.
  40. IS Smitha, KR Sreejith, KA Mathew, K Rajeevkumar (2011) Low Cost Microwave Plasma Generation System – A Power Analysis Study, International Journal of Computer Applications, 30(12), 1–7.

Conferences

  1. LAMP-Based Detection of SARS-CoV-2 with Low-Cost Off-the-Shelf Components KR Sreejith, M Umer, N Soda, S Kasetsirikul, MJA Shiddiky, NT Nguyen MicroTAS – International Conference on Miniaturized Systems for Chemistry and Life Sciences, California, USA, 10–14 October 2021, pp. 1214–1215.
  2. Liquid Marble Based Digital Microfluidics: Fundamental Physics and Applications NT Nguyen, CH Ooi, R Vadivelu, KR Sreejith, J Jin, NK Nguyen, P Singha, MicroTAS – International Conference on Miniaturized Systems for Chemistry and Life Sciences, 2020.
  3. Dielectrophoretic Trapping of Non-Stationary Floating Liquid Marbles J Jin, CH Ooi, KR Sreejith, DV Dao, NT Nguyen, MicroTAS – International Conference on Miniaturized Systems for Chemistry and Life Sciences, 2019.
  4. Dielectrophoretic Manipulation for Robust Liquid Marble-Based Digital Microfluidics, NT Nguyen, CH Ooi, J Jin, KR Sreejith, MicroTAS – International Conference on Miniaturized Systems for Chemistry and Life Sciences, 2018.
  5. Liquid Marbles – A Versatile Microfluidic Platform for “Green Bio Laboratory” Practices KR Sreejith, Microfluidics & Organ-on-a-Chip Asia Conference, Tokyo, Japan, 14–15 November 2019.
  6. Liquid Marble as a Bioreactor for Polymerase Chain Reaction, KR Sreejith, Australia and New Zealand Nano and Microfluidics Conference (ANZNMF 2019),University of Wollongong, Australia, 1–3 July 2019.
  7. A Small Volume Droplet Dispenser Based on Electrohydrodynamic Pulling, KR Sreejith, GR Jayanth 31st Annual In-House Symposium on Space Science and Technology, ISRO–IISc Space Technology Cell, Indian Institute of Science, Bangalore, India, 8–9 January 2015.
  8. Low-Cost Automated Specific Heat Capacity Meter for Liquids, KR Sreejith, PG Shyamkumar, PA Revathy, C Sreedevi. IEEE International Conference on Trends in Automation, Communications and Computing Technology (I-TACT 2015),Bangalore, India.
  9. Automation of Hydroelectric Power Plant Using Wireless SCADA, KR Sreejith, PS Arjun, Gokul Gopal, Nikhil K Joshi, Nair Sruthi Prakash, International Conference on Computing and Control Engineering (ICCCE 2012), Dr. MGR University, Chennai, India.

Reports

  1. K R Sreejith – Design and Development of a Fully automated Liquid marble based stemcell culturing system in 96 well plate
  2. K R Sreejith – Design and Development of an RT PCR/LAMP thermal cycler with real-time fluorescent detection
  3. K R Sreejith – Design and development of thermal cycler for PCR/LAMP for Microfluidic Chip, liquid marbles, and Core-shell beads.

Memberships

  1. Life Member, ISTE
  2. Member ISA

Research Interest

  1. Microfluidics
  2. Disease diagnostics and pathogen detection
  3. Wearable devices
  4. One Health
  5. IoT and EDGE AI

Patents

Nil

Achievements

  1. Recipient of the Griffith University Postdoctoral Fellowship (GUPF-2023).
  2. Awarded the Griffith University International Postgraduate Research Scholarship (GUIPRS) during Ph.D.
  3. Awarded the Engineering Postgraduate Research Scholarship (ENGPRS) from Griffith University.
  4. Received the AICTE–MHRD Scholarship during M.Tech at IISc, Bangalore, India
  5. Multiple publications selected as Editor’s Pick by journals of the American Institute of Physics (AIP).
  6. Several papers recognised as Featured Articles in international scientific journals.
  7. Research articles featured on journal covers and highlighted in international scientific media.

Editor

Guest Editor: MDPI Micromachines

Reviewer

  1. IEEE Transactions on Instrumentation and Measurement 
  2. Springer Microfluidics and Nanofluidics
  3. Springer Biomedical Microdevices
  4. RSC Lab on a Chip
  5. RSC Advances
  6. MDPI Micromachines
  7. MDPI Molecules
  8. MDPI Sensors
  9. MDPI Pathogens

Contact Details

Mobile: +91 8075131063

Email: sreejith.rajan@saintgits.org