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Dr. Sreenidhi P. R.

Assistant Professor (Level II), Department of Electronics and Communication, School of Engineering, Amritapuri

Qualification: M.Tech., Ph.D
sreenidhipr@am.amrita.edu
Google Scholar Profile
Scopus Author profile
Research Interest: VLSI digital design, Polymeric Materials, 2D Materials ,Material Characterization, Nanomaterials, Thin Films and Nanotechnology, Nanofabrication, Hybrid Materials, Energy harvesting, Wearable sensors
Date of Joining: 06/01/2020
Nature of Association: Regular

Bio Publications Reviewer Research Grants FDP / Workshops Research Talks Delivered Invited Talks Membership Awards Conferences
Bio

Dr. Sreenidhi P. R. received her B.Tech. degree in Electronics and Communication Engineering (2008), M.Tech. degree in VLSI and Embedded Systems (2014) and received her Ph.D. in Nanotechnology from National Institute of Technology, Calicut. She was working on Energy harvesting devices starting from nanomaterial synthesis to device fabrication and testing. She has published papers in reputed peer-reviewed journals like Nanoenergy Elsevier, Liquid crystal display Taylor and Francis, Applied nanoscience Springer, Material research express, IOP, High-performance Polymers, SAGE, Micro-nano letters, IET Applied Nanomaterials ACS, Applied Materials and Interfaces etc . She has received the best paper awards for the national conference (Electrical and Electronics Engineering Department) and the international conference (Chemical Engineering Department) held at the National Institute of Technology. Calicut. Her research interests include piezoelectric and contact electrification based devices for energy harvesting applications, Scanning probe microscopic techniques for nano-scale voltage characterization in nanomaterials. Currently, She is working as an Assistant Professor at the Department of Electronics and Communication Engineering, School of Engineering, Amrita VishwaVidyapeetham, Amritapuri, Kollam. She has been guiding UG , PG and Ph.D students in areas such as VLSI, Materials for Energy harvesting and Sensors for wearables.

Publications

Journal Article

Year : 2023

Review: materials for biocompatible tribo-piezo nanogenerators

Cite this Research Publication : Maya Gopakumar, G., Prabha Rajeev, S. Review: materials for biocompatible tribo-piezo nanogenerators. J Mater Sci 58, 7809–7838 (2023). https://doi.org/10.1007/s10853-023-08321-w

Publisher : Springer

Year : 2023

Impact of PVDF and its copolymer-based nanocomposites for flexible and wearable energy harvesters

Cite this Research Publication : Swathy S. Panicker, Sreenidhi Prabha Rajeev, Vinoy Thomas, Impact of PVDF and its copolymer-based nanocomposites for flexible and wearable energy harvesters, Nano-Structures & Nano-Objects, Volume 34, 2023, 100949, ISSN 2352-507X

Year : 2022

Optimising proof mass for cantilever based piezoelectric energy harvester

Cite this Research Publication : M.G. Greeshma, Sreenidhi Prabha Rajeev, "Optimising proof mass for cantilever based piezoelectric energy harvester", Materials Today: Proceedings, Volume 59, Part 1, 2022, Pages 623-627, ISSN 2214-7853

Year : 2022

Ultrasonic energy harvester: Biocompatible material selection

Cite this Research Publication : Sreeja, SD Baby, P. R. Sreenidhi, C. O. Sreekala, and Sundararaman Gopalan. "Ultrasonic energy harvester: Biocompatible material selection." Materials Today: Proceedings 66 (2022): 1571-1577

Publisher : Materials Today: Proceedings

Year : 2020

Nature-inspired PDMS cumulonimbus micro-energy-harvesting cloud

Cite this Research Publication : Sreenidhi P. R., V. John, N., Sabarinath S., Ashfak, A., Subash, C. Karimuthil, and Varghese, S., “Nature-inspired PDMS cumulonimbus micro-energy-harvesting cloud”, Applied Nanoscience, SCI (Impact factor 3.19), vol. 11, no. 127–137, 2020. (Scopus Q2)

Publisher : Applied Nanoscience, Springer

Year : 2020

Next-generation rooftop tribo–piezo electric energy harvesting from rain power

Cite this Research Publication : Sreenidhi P. R., John, S., Cherian, R., Subash, C. K., and Varghese, S., “Next-generation rooftop tribo–piezo electric energy harvesting from rain power”, Applied Nanoscience, vol. 10, no. 3, pp. 679-686, 2020.

Publisher : Applied Nanoscience

Year : 2020

Prototype of energy harvesting door handles using polymer nanocomposite

Cite this Research Publication : Sreenidhi P. R., Sivapriya, S., Karumuthil, S. Cherumanni, and Varghese, S., “Prototype of energy harvesting door handles using polymer nanocomposite”, Applied Nanoscience, vol. 10, no. 1, 2020.

Publisher : Applied Nanoscience

Year : 2020

Development of fully formulated eco-friendly nanolubricant from sesame oil

Cite this Research Publication : Sabarinath S., Sreenidhi P. R., P. Kumar, and Nair, K., “Development of fully formulated eco-friendly nanolubricant from sesame oil”, Applied Nanoscience, SCI (Impact factor 3.19), vol. 10, no. 2, pp. 577-586, 2020. (Scopus Q2)


Publisher : Applied Nanoscience, Springer

Year : 2019

Electrospun Poly(vinylidene fluoride-trifluoroethylene)-Based Polymer NanocompositeFibers for Piezoelectric Nanogenerators

Year : 2019

Poly(vinylidene fluoride-trifluoroethylene)-ZnO Nanoparticle Composites on a Flexible Polydimethylsiloxane Substrate for Energy Harvesting

Cite this Research Publication : S. C. K, Sreenidhi P. R., and Varghese, S., “Poly(vinylidene fluoride-trifluoroethylene)-ZnO Nanoparticle Composites on a Flexible Polydimethylsiloxane Substrate for Energy Harvesting”, ACS Applied Nano Materials, vol. 2, 2019.

Publisher : ACS Applied Nano Materials

Year : 2019

Electrospun Poly(Vinylidene Fluoride-Trifluoroethylene) based Polymer Nanocomposite Fibers for Piezoelectric Nanogenerators

Cite this Research Publication : S. C. K, Sreenidhi P. R., Valiyaneerilakkal, D. Uvais, Athiyanathil, S., and Varghese, S., “Electrospun Poly(Vinylidene Fluoride-Trifluoroethylene) based Polymer Nanocomposite Fibers for Piezoelectric Nanogenerators”, ACS Applied Materials & Interfaces, vol. 11, no. 43, pp. 40180-40188 , 2019.

Publisher : ACS Applied Materials & Interfaces, ACS Publications

Year : 2019

α-and β-crystalline phases in polyvinylidene fluoride as tribo-piezo active layer for nanoenergy harvester

Cite this Research Publication : Sreenidhi P. R., Nair, S., K, S. C., Valiyaneerilakkal, D. Uvais, Parameswaran, P., and Varghese, S., “α-and β-crystalline phases in polyvinylidene fluoride as tribo-piezo active layer for nanoenergy harvester”, High Performance Polymers, vol. 31, no. 7, pp. 785-799, 2019. (Scopus Q2), SCI (Impact factor 1.031)

Publisher : SAGE Publications

Year : 2018

Flexible nanoenergy harvester using piezo-tribo functional polymer and carbon fibre as electrodes

Cite this Research Publication : Sreenidhi P. R., K, S. C., Lokasani, B., and Varghese, S., “Flexible nanoenergy harvester using piezo-tribo functional polymer and carbon fibre as electrodes”, Materials Research Express, vol. 5, no. 7, 2018.


Publisher : Materials Research Express, IOP Publishing

Year : 2018

Ferroelectric polymer nanocomposite alignment layer in twisted nematic liquid crystal devices for reducing switching voltage

Cite this Research Publication : N. John, Sreenidhi P. R., and Varghese, S., “Ferroelectric polymer nanocomposite alignment layer in twisted nematic liquid crystal devices for reducing switching voltage”, Liquid Crystals, vol. 46, no. 5, pp. 736-742, 2018.

Publisher : Liquid Crystals

Year : 2017

Piezo-tribo nanoenergy harvester using hybrid polydimethyl siloxane based nanocomposite

Cite this Research Publication : S. C. K, Sreenidhi P. R., and Varghese, S., “Piezo-tribo nanoenergy harvester using hybrid polydimethyl siloxane based nanocomposite”, Nano Energy, vol. 40, pp. 487-494, 2017.

Publisher : Nano Energy

Year : 2017

Nanoscale static voltage generation and its surface potential decay using scanning probe microscopy

Cite this Research Publication : Sreenidhi P. R., S. Karumuthil, C., Valiyaneerilakkal, U., and Varghese, S., “Nanoscale static voltage generation and its surface potential decay using scanning probe microscopy”, Micro Nano Letters, vol. 12, pp. 928-933, 2017.

Publisher : Micro Nano Letters

Conference Proceedings

Year : 2020

Flexible PVDF-SrTiO3 Piezoelectric Nanogenerator for Energy Harvesting

Cite this Research Publication : Sreenidhi P. R., “Flexible PVDF-SrTiO3 Piezoelectric Nanogenerator for Energy Harvesting”, Centre for Nanotechnology Research (CNR), Vellore Institute of Technology. 2020.

Publisher : Centre for Nanotechnology Research (CNR)

Year : 2020

Flexible PVDF-SrTiO3 Piezoelectric Nanogenerator for Energy Harvesting”, Centre for Nanotechnology Research (CNR)

Cite this Research Publication : Sreenidhi P. R., “Flexible PVDF-SrTiO3 Piezoelectric Nanogenerator for Energy Harvesting”, Centre for Nanotechnology Research (CNR), Vellore Institute of Technology. 2020.

Publisher : Vellore Institute of Technology

Year : 2018

Contact Electrified Piezo-Tribo Nanoenergy Harvester (Best Paper)

Cite this Research Publication : Sreenidhi P. R., “Contact Electrified Piezo-Tribo Nanoenergy Harvester (Best paper)”, First International Conference on Energy and Environment: Global Challenges. ICEE 2018 , Department of Chemical Engineering, NIT Calicut, Kerala, India, 2018.


Publisher : First International Conference on Energy and Environment: Global Challenges. ICEE 2018

Year : 2018

Triboelectric Nanoenergy Harvester Using Polymer As Active Layers(Best paper)

Cite this Research Publication : Sreenidhi P. R., “Triboelectric Nanoenergy Harvester Using Polymer As Active Layers(Best paper)”, National conference on recent trends in energy . Department of electrical engineering, NIT Calicut, Kerala, India, 2018.


Publisher : National conference on recent trends in energy . Department of electrical engineering,

Year : 2013

Low power glitch free dual output coarse digitally controlled delay lines

Cite this Research Publication : S. M. K. John and Sreenidhi P. R., “Low power glitch free dual output coarse digitally controlled delay lines”, 2013 International Conference on Advanced Computing and Communication Systems. IEEE, Coimbatore, India, 2013.

Publisher : 2013 International Conference on Advanced Computing and Communication Systems. IEEE

Reviewer

Journals

  • ACS Applied Materials and Interfaces
  • Elsevier Nanoenergy SAGE
  • Journal of Thermoplastic Composite Materials
Research Grants
  • Student project KSCSTE,
  • UGC DAE CSR project for utilisation of characterisation facility
FDP / Workshops
  1. AICTE Training And Learning (ATAL) Academy OnlineFDP on “Wearable Devices” from 2020-12-14 to2020-12-18 at National Institute of Technology Jamshedpur
  2.  AICTE Training And Learning (ATAL) Academy Online Elementary FDP on “IOT”from 05/10/2021to 09/10/2021at INSTITUTE OF TECHNOLOGY GOPESHWAR.
  3. AICTE Training And Learning (ATAL) Academy Online Elementary FDP on “Faculty Development Programme on “VLSI -IP DESIGN Approach to SRAM compiler design”” from 16/08/2021 to 20/08/2021 at GM Institute of Technology.
  4. Live online webinar on Emerging applications of Artificial Intelligence in Biomedical and Computer Science Engineering conducted on 28th May 2020 at KMCT College of Engineering for Women
  5. Pedagogy to Panickogy conducted on 11th June to 13th June 2020 at AmalJyoti College of Engineering, Kottayam
Research Talks Delivered
  • Natureinspired PDMS cumulonimbus microenergyharvesting cloud at ManipalUniversity , Jaipur on 23rd Novemeber 2020 during event “Blend of Physics”.
Invited Talks
  • Self powered mechanoreceptors for prosthetic limb users National Level Fdp On “Emerging Research Trends Invlsi, Mems And Signal Processing”organized by Department of Electronics & Communication Engineering in association with IETE(10/08/2020 to 13/08/2020)
Membership
  • IEEE
Awards
  • Aira Awards 2021
  • TCS Gems 2009
Conferences
  1. TriboelectricNanogenerators – A Review
  2. Performance Assessment of Two Stage Operational Transconductance Amplifier in 180nm and 130nm Technology with Optimised Compensation Capacitance
  3. Optimising the negative electrode material and electrolytes for lithium ion battery
  4. Study on Positive Electrode material in Li-ion Battery
  5. A Review on Tribo and Piezoresistive Sensors
  6. Optimizing Design of Wearable Energy Generator for Body Motion based Energy Harvesting
  7. Design of 3-axis Piezoelectric Accelerometer for Body Activity Measurements
  8. Design, Implementation and Analysis of Isopower Modules
  9. Spectroscopy for material characterization-review
  10. Simulation study of micro fluidic device for biosensor application
  11. Skin Mimicked Sliding Triboelectric Sensor to Detect Caressing Touch for Prosthetic Users
  12. Low Power 90 nm 8 × 4 Pseudo NMOS Barrel Shifter Design
  13. Investigations on Piezo Active Layer of Low Frequency Cantilever Structured Vibration Energy Harvester for Cordless Cranial Drill
  14. Wearable Sensors in Daily Life: A Review
  15. Design of Piezoelectric Heart Rate Monitoring Sensor for Wearable Applications
  16. Material Design for Self Powered Cranial Drill using Piezoelectric effect – A COMSOL Study
  17. Design and Implementation of Methane Gas Detection and Estimation Sensor Network
  18. VLSI Design of Low Power 8×4 Barrel Shifter using 90 nm TG technology
  19. Low power glitch free dual output coarse digitally controlled delay lines
  20. TRAC 1-A Arduino based Trouble Detection and Caution System for Well Cleaners
  21. Performance Assessment of Two Stage Operational Transconductance Amplifier in 180nm with Optimised Compensation Capacitance and Nulling Resistor
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