PUBLICATIONS
Pudasaini, S., Thapa, G., Marasini, B.P. and Giri, B., 2022. Smartphone-Operated Affordable PCR Thermal Cycler for the Detection of Antimicrobial Resistant Bacterial Genes. PLOS Global Public Health. doi: 10.1371/journal.pgph.0001120
Pudasaini, S., Thapa, G., Marasini, B.P. and Giri, B., 2022. Smartphone-Operated Affordable PCR Thermal Cycler for the Detection of Antimicrobial Resistant Bacterial Genes. bioRxiv. doi: 10.1101/2022.05.27.493737
Shrestha, S., Pudasaini, S. and Giri, B., 2022. Towards the development of paper analytical devices for testing alkaline phosphatase, starch, and urea in milk. International Dairy Journal, p.105470. doi: 10.1016/j.idairyj.2022.105470
Bhattarai, R.K., Pudasaini, S., Sah, M., Neupane, B.B. and Giri, B., 2022. Handmade Paper as a Paper Analytical Device for Determining the Quality of an Antidiabetic Drug. ACS omega, 7(16), pp.14074-14081. doi: 10.1021/acsomega.2c00633
Pudasaini, S., Perera, A. T., Ng, S. H., Yang, C., 2021. Bacterial inactivation via microfluidic electroporation device with insulating micropillars, Electrophoresis. doi: 10.1002/elps.202000326
Nguyen, T.D., Tran, V.T., Pudasaini, S., Gautam, A., Lee, J.M., Fu, Y.Q. and Du, H., 2021. Large‐Scale Fabrication of Three‐Dimensional Scaffold‐based Patterns of Microparticles and Breast Cancer Cells using Reusable Acoustofluidic Device. Advanced Engineering Materials. doi:10.1002/adem.202001377
Dai Nguyen, T., Fu, Y., Tran, V. T., Gautam, A., Pudasaini, S., Du, H., 2019. Acoustofluidic closed-loop control of microparticles and cells using standing surface acoustic waves, Sensors and Actuators B: Chemical. doi:10.1016/j.snb.2020.128143
Perera, A. T., Phan D. T., Pudasaini, S., Liu Y., Yang, C., 2019. Enhanced sample pre-concentration by ion concentration polarization on a paraffin coated converging microfluidic paper based analytical platform, Biomicrofluidics. doi:10.1063/1.5133946
Pudasaini, S., Perera, A. T., Ahmed S. S. U., Ng, Chong, Y. B., S. H., Yang, C., 2019. An Electroporation Device with Microbead-Enhanced Electric Field for Bacterial Inactivation, Inventions. doi: 10.3390/inventions5010002
Perera, A. T., Pudasaini, S., Ahmed S. S. U., Phan D. T., Liu Y., Yang, C., 2019. Rapid Pre‐Concentration of Escherichia coli in a Microfluidic Paper‐based Device using Ion Concentration Polarization, Electrophoresis. doi:10.1002/elps.201900303
Pudasaini, S., Perera, A. T., Das, D., Ng, S. H., Yang, C., 2019. Continuous flow microfluidic cell inactivation with use of insulating micropillars for multiple electroporation zones, Electrophoresis. doi:10.1002/elps.201900150
Pudasaini, S., Pathak, A., Dhakal, S. and Paudel, M., 2014. Automatic Water Level Controller with Short Messaging Service (SMS) Notification. International Journal of Scientific and Research Publications, 4(9), pp.1-4.
Pandey, R.J., Pudasaini, S., Dhakal, S., Uprety, R.B. and Neopane, H.P., 2014. Design and computational analysis of 1 kW Tesla turbine. Int. J. Sci. Res. Publ, 4(11), pp.314-318.
CONFERENCES
Pudasaini, S., Perera, A. T. , Uddin, A. S. , Ng, S. H. , Yang, C., 2019. Micropillar-Assisted Electric Field Enhancement for High-Efficiency Inactivation of Bacteria. Lab-on-a-Chip & Microfluidics Europe
Pudasaini, S. , Perera, A. T. , Uddin, A. S. , Ng, S. H. , Yang, C., 2019. Micropillar-Assisted Electric Field Enhancement for High-Efficiency Inactivation of Bacteria. World Academy of Science, Engineering and Technology, International Science Index, Environmental and Ecological Engineering, 13(1), 3326.
Pudasaini, S. , Ng, S. H. , Yang, C. , 2018. Effective Disinfection of Microorganisms in Ballast Water with Enhanced Electric Field induced by Micropillars. The Second International Conference of Microfluidics, Nanofluidics and Lab-on-a-Chip, 2(23)
Pudasaini, S., Neopane, H.P. and Amod, P., 2014, September. Computational Fluid Dynamics (CFD) analysis of Pelton runner of Khimti Hydro-power Project of Nepal. In Rentech Symposium Compendium (Vol. 4).