Research output
Highlights:
Journal Articles
Panwar J. and Merten C. “Fluorescence crosstalk reduction by modulated excitation-synchronous acquisition for multispectral analysis in high-throughput droplet microfluidics”, 2023, Lab-on-Chip (Highlighted article).
Panwar, J*., Autour, A*. and Merten, C. “Design and construction of a microfluidics workstation for high-throughput multi-wavelength fluorescence and transmittance activated droplet analysis and sorting”, 2023, Nature Protocol.
Panwar J., Uthrala R., Fennelly L., Frenzel D. and Merten C. “iSort for Automating complex microfluidic droplet sorting in an effort to democratize technology”, 2023, Cell Reports Methods.
Panwar J. and Roy R. “Integrated Field's metal microelectrodes based microfluidic impedance cytometry for cell-in-droplet quantification”, 2019, Elsevier Microelectronic Engineering.
Panwar J. and Roy R. “Modified capillary number to standardize droplet generation in suction driven microfluidics”, 2024, Springer-Nature: Microfluidics and Nanofluidics.
Patents
Panwar J., Jain P., Abbasi U., Kumaran V. and Roy R. “Microstructured electrodes and method thereof.” US20210162410.
Valloly P., Panwar J. and Roy R. “Quantification of concentration of a component in a sample fluid.” WO2020016905.
Panwar J., Utharala R., Fennelly L. and Merten C. “Automated droplet manipulation in microfluidics and methods thereof.” WO2023094702 (A1)
Panwar J. and Merten C. Fluorometer system, fluorescence analysis method, and use thereof.” EP22184197.6
Translations
TFADS setup is used in Cancer research facility in Lausanne city hospital (CHUV-ISREC) Lausanne for testing drug response on tumor samples
MESA is used in parts by TheraME ! a Med-Tech startup working in the field of personalized cancer therapy
Both TFADS and MESA are reproduced in whole or in parts at various academic and industrial laboratories including Cornell university, US; Roche Innovation Center, China; UC Berkeley, US etc.