Electrical
Indian Institute of Technology Delhi

Interests

Piezoelectric, Triboelectric, Piezoresistive, Machine Learning, Sensors, Energy harvesters

Projects

Development of Micro-Energy Harvesting Devices-IRD IIT Delhi High Efficiency Micro/Nano Energy Harvesting System for Self-powered Smart Environment-DST-RCN (India-Norway Joint Project) Self-powered Sensor System for Soft Robotics and Human-Machine Interacttion (HMI)-I-Hub Foundation for Cobotics, Technology Innovation Hub, IIT Delhi Development of high G electromagnetic energy harvester for railway applitcation.IITD-FITT Hardware Realization for Neuromorphic Computing using MEMS Oscillator Networks-MFIRP IIT Delhi with NCTU Taiwan Development of optimized piezoelectric thin films CMOS/Bio compatible energy harvesting and sensing applications

Publications

1 Publications Book Chapter • D.Mallick, S.Naval, N. T. Beigh, MEMS-based energy harvesting devices: Overview of recent progress,in MEMS Applications in Electronics and Engineering, (AIP Publishing, New York, 2022) Link. • S.Naval, N. T. Beigh, A. Jain, D. Mallick SU-8/BTO Nanocomposite Cantilever Beam based Triboelectric Generator (Under Review). Selected Publications [J1] N. T. Beigh, S.Singh, A.Goswami, D.Mallick. Dual Piezoelectric/Triboelectric Behavior of BTO/SU8 Photopatternable Nanocomposites for Highly Efficient Mechanical Energy Harvesting. Advanced Electronic Materials, 8(10), 2200338 (2022) (IF:7.633, citations: 6 ).Link [J2] N. T. Beigh, S.Naval, D.Mallick. Impact-loss-compensated wideband vibrational energy harvesting using a hybrid BaTiO3/SU-8 nanocomposite as the active layer. Physical Review Energy, 1(3), 033004 (2022) (IF:14.417, citations:3 ). Link [J3] S.Naval, N. T. Beigh, D.Mukherjee, D.Mallick. Multi-output AC/DC Triboelectric Generator with Dual Rectification, Nano Energy, 105, 108004 (2022) (IF:17.88, citations: 2 ). Link [C1] N. T. Beigh, F.T.Beigh, D. Mukherjee, S.Naval, D. Mallick , Machine Learning Enabled Hind Foot Deformity Detection Using Individually Addressable Hybrid Pressure Sensor Matrix. In 2023 IEEE 36th International Conference on Micro Electro Mechanical Systems (MEMS), (pp. 343- 346). IEEE (2023). Link Journal papers [J4] N. T. Beigh, D.Mallick. Low-Cost, High-Performance Piezoelectric Nanocomposite for Mechanical Energy Harvesting. IEEE Sensors Journal, 21(19), 21268-21276 (2021) (IF:4.329, citations: 10). Link [J5] S.Naval, N. T. Beigh, A Jain, D.Mallick. Flexible V-Shaped Piezoelectric-Triboelectric Device for Biomechanical Energy Harvesting and Sensing. Journal of Physics D: Applied Physics, 55(36),365501 (2022) (IF:3.409, citations: 9 ). Link [J6] S.Naval, N. T. Beigh, A.Jain, D.Mallick. Bandwidth Tunable Vibration Energy Harvester based on Hybrid Triboelectric-Piezoelectric Array. Engineering Research Express, 4(4),045022 (2022) (IF:1.21, citations: 3 ). Link [J7] M.Yousuf, N. T. Beigh, D.S.Arya, M.Garg, Pushpapraj Singh, D. Mallick. A Sensitive and Flexible Poroelastic Barium Titanate Matrix for Pressure Sensing Applications. IEEE Sensor Letters, 7(2), 1-4.(2023) (IF:3.6). Link [J8] F.T.Beigh, S. Naval, V.Garg, N. T. Beigh,D. Mallick. Intelligent Workplace Activity Monitoring and Detection using Self-powered Triboelectric/Piezoelectric Sensor Augmented Machine Learning.IEEE Sensor Letters, 7(6), 1-4.(2023) (IF:3.6). Link [J9] N. T. Beigh, F.T.Beigh, D.Mallick. Machine Learning Assisted Hybrid Transduction Nanocomposite Based Flexible Pressure Sensor Matrix for Human Gait Analysis (Under Review-Small) Conferences Papers [C2] F.T.Beigh, N. T. Beigh, D.Mallick, Localized Biomechanical Strain Sensing with Graphene/SU8 Nanocomposite Based Highly Flexible Piezoressistive Sensor. In IEEETransducers2023 (2023) 1 (Accepted-Oral Presentation). [C3] S.S.Chauhan, N. T. Beigh, D.Mukherjee, D.Mallick, Development and Optimization of Highly Piezoelectric BTO/PVDF-TrFE Nanocomposite Film for Energy Harvesting Application. In 2022 6th IEEE International Conference on Emerging Electronics (ICEE) (2022). [C4] S.S.Chauhan, N. T. Beigh, D.Mukherjee, D Mallick, Flexible Vibrational Energy Harvester with Groove Design Using BTO/PVDF-TrFE Film for Higher Output. In the IEEE APSCON 2023 (2023). Link [C5] S. Naval, P. Verma, N. T. Beigh, A.Jain, D.Mallick, Flexible DC Triboelectric Generator with Associated Conditioning Circuit. In 2022 21st International Conference on Micro and Nanotechnology for Power Generation and Energy Conversion Applications (PowerMEMS), (pp. 30-33). IEEE (2022). Link [C6] S. Naval, N. T. Beigh, A.Jain, D.Mallick, Comparative study of frequency response of triboelectric and piezoelectric energy harvesters. In 2021 IEEE 20th International Conference on Micro and Nanotechnology for Power Generation and Energy Conversion Applications (PowerMEMS), (pp. 224-227). IEEE (2022). Link [C7] N. T. Beigh, D.Mallick. Highly Efficient Low Threshold Parametrically Forced MEMS Vibrational Energy Harvesters. In 2020 5th IEEE International Conference on Emerging Electronics (ICEE), (pp. 1-4). IEEE (2020). Link [C8] N. T. Beigh , D.Mallick, istable Piezoelectric Energy Harvesters for Low Frequency, Low G Applications. In 2020 5th IEEE International Conference on Emerging Electronics (ICEE). IEEE (2020). [C9] N. T. Beigh, D. Mallick, Optimization of ZnO/Su-8 Based Photopatternable, Piezoelectric NanoComposites for Mechanical Energy Harvesting Applications. In 2021 21st International Conference on Solid-State Sensors, Actuators and Microsystems (Transducers), (pp. 875-879). IEEE (2021). Link [C10] N. T. Beigh, D. Mallick, Design of Nonlinear MEMS Buckled Beam Structures for Low-threshold Mechanical Energy Harvesting. In International Conference on Precision, Meso, Micro and Nano Engineering (COPEN11) (2019). Link [C11] N. T. Beigh, P S Azad, P Parkash, D. Mallick, High Performance, Nonlinear Piezoelectric MEMS Energy Harvesting from Low-threshold Mechanical Vibrations. In 2019 19th International Conference on Micro and Nanotechnology for Power Generation and Energy Conversion Applications (PowerMEMS),(pp. 1-5). IEEE(2020) Link [C12] Shalini, D.S. Arya, N. T. Beigh, S. Kumar, R. Mudgal, P. Singh, P.K. Muduli, D. Mallick, Ankur Goswami, Energy Harvesting From Water Droplet Motion Confined On A Hydrophobic-Hydrophilic Stripped Surface. In 2022 IEEE 35th International Conference on Micro Electro Mechanical Systems Conference (MEMS),(pp. 943-946). IEEE (2022). Link [C13] F.T. Beigh,J.A. Sheikh, N. T. Beigh, Optimized MEMS Circular Membrane Resonators for Mechanical Energy Harvesting and Sensing for IoT Application. In 2020 5th IEEE International Conference on Emerging Electronics (ICEE),(pp. 1-4). IEEE(2020).Link [C14] F.T. Beigh; J. A. Sheikh; N. T. Beigh, A New Low Power Bi-Stable RF-MEMS Based Energy Harvester for NOMA Driven Industrial Internet of Things (IIoT). In 2022 5th International Conference on Multimedia, Signal Processing and Communication Technologies (IMPACT),(pp. 1- 2 8).IEEE(2022). Link 3