Post Docs
Priyanka Singh
Post Doctoral Fellow
Room No: TF-28
Email: priyankasing@iisc.ac.in; priyankabhu17@gmail.com
Faculty Advisors: Prof. Rudra Pratap, CeNSE.
• PhD Physics (2020) From Department of Physics, Banaras Hindu University, Varanasi, U.P. India.
• M.Sc. Physics (2011-2013) from Banaras Hindu University, Varanasi, U.P. India.
• B.Sc. (Hons) Physics (2008-2011) from Banaras Hindu University, Varanasi, U.P. India.
Experience
• Postdoctoral fellow under the IOE-IISC program With Prof. Rudra Pratap at Center for Nanoscience and Engineering, IISC Bangalore, 2020 September- till date.
Research Interests
• MEMS/NEMS
• Micro/Nanocantilever
• Nonlinear Dynamics of Cantilever
Research Interests
MEMS/NEMS
Publications
• Priyanka Singh and R. D. S. Yadava, Stochastic resonance induced performance enhancement of MEMS cantilever biosensors. Journal of Physics D: Applied Physics.53 (46):465401, 2020.
• Priyanka Singh and R. D. S. Yadava, Effect of viscous axial loading on vibrating microcantilever sensors. Journal of Physics D: Applied Physics. vol. 52, 345301 (9pp), 2019.
• Priyanka Singh and R. D. S. Yadava, Effect of surface stress on resonance frequency of microcantilever sensors. IEEE Sensors Journal, vol. 18, no. 18, pp. 7529-7536, 2018.
• Priyanka Singh and R.D.S. Yadava, Stochastic resonance in micro/ nano cantilever sensors. 2nd Int. Conf. Condensed Matter and Applied Physics 2017, AIP Conf. Proc. vol. 1953, 140131(5pp).
• Priyanka Singh and R.D.S. Yadava, Damping noise induced stochastic resonance improves Q-factor of M/NEMS resonators. Advanced Computational and Communication Paradigms, Springer LNEE Series 475, pp. 515-523, 2017.
• Priyanka Singh and R.D.S. Yadava, Enhancing sensitivity of MEMS chemical sensors by sorption-induced parametric modulation. Innovations in Information, Embedded and Communication Systems, IEEE Conf. Proc. ICIIECS 2017, pp. 1-6.
• Priyanka Singh and R. D. S. Yadava, “Nanosensors for Health Care” Chapter 25, in: Nanosensors for Smart Cities, (Eds) B. Han et al, Elsevier Micro & Nano Technologies Series, Elsevier, 2020 Feb 28.
• T. S. Singh, Priyanka Singh and R. D. S. Yadava, Effect of interfilament hydrodynamic interaction on swimming performance of two-filament microswimmers, Soft Matter, vol. 14, no. 37, pp. 7748-7758, 2018.
• A. Gupta, T. S. Singh, Priyanka Singh and R. D. S. Yadava, Oxidative stress detection by MEMS cantilever sensor array based electronic noise, 2nd Int. Conf. Condensed Matter and Applied Physics (ICC 2017), AIP Conf. Proc. vol. 1953, 140131(5pp).
Conference and Seminars
• National Conference on Applied Science and Humanities in engineering, 2016, Held at Jaipur, Rajasthan, India, Hydrodynamic influence in NEMS cantilever sensitivity via flexural torsional coupling. Priyanka Singh and R. D. S. Yadava (Oral Presentation).
• 4th International conference on Innovation in information, embedded and communication systems, held at Coimbatore, Tamilnadu, India. “Enhancing sensitivity of MEMS chemical sensors by sorption-induced parametric modulation”, Priyanka Singh and R.D.S. Yadava (Oral Presentation)
• 2nd International Conference on Condensed Matter & Applied Physics, (2017), held at Bikaner Rajasthan, India. “Stochastic Resonance in Micro/Nano Cantilever Sensors”, Priyanka Singh and R.D.S. Yadava (Oral Presentation)
• 1st International Conference on Advanced Computational and Communication Paradigms, 2017, held at Sikkim, India. “Damping Noise Induced Stochastic Resonance Improves Q-factor of M/NEMS Resonators” Priyanka Singh and R.D.S. Yadava (Oral Presentation)
• 10th One-day Conference in Physics, 2017, held at BHU, “MEMS Chemical Sensing by Parametric Resonance”, Priyanka Singh and R.D.S. Yadava (Poster Presentation)