Energy Harvesting and Storage Devices

Laxman Raju Thoutam is Assistant Professor at Amrita School of Nanosciences and Molecular Medicine, Amrita Vishwa Vidypeetham, Kochi, India. Dr. Thoutam has more than 10 years of cleanroom fabrication experience in the design and development of novel micron and nanoscale devices and heterostructures for functional applications. Dr. Thoutam did his postdoctoral research on the synthesis and characterization of high-quality complex oxide thin films and heterostructures for functional device applications at University of Minnesota, Minneapolis, USA. He received his Ph.D. in Nanoscience (2016) and Master of Science in Electrical Engineering (2011) from Northern Illinois University, DeKalb, Illinois, USA. He serves as a referee for many international repute journals and has worked as a committee member for international materials science conferences and workshops. His primary research focuses on exploring the structure-property relationships of low-dimensional material systems. His present research area includes implementation of novel electrostatic gating techniques to different material systems; analysis of fundamental electronic transport in semimetals, complex oxide perovskite thin films and heterostructures, wide band gap semiconductors, and low-dimensional materials. J. Ajayan received his B.Tech Degree in Electronics and Communication Engineering from Kerala University in 2009, M.Tech and Ph.D. Degree in Electronics and Communication Engineering from Karunya University, Coimbatore, INDIA, in 2012 and 2017 respectively. He is an Associate Professor in the Department of Electronics and Communication Engineering at SR University, Telangana, India. He has published more than 150 research articles (including 70 SCI articles) in various journals and international conferences. He has published three books, more than 20 book chapters, and 3 patents. He is a reviewer of more than 30 journals in various publishers. He is a Guest Editor with various journals. He has served more than 10 conferences on the technical advisory/reviewer committee. His areas of interest are microelectronics, semiconductor devices, nanotechnology, RF-integrated circuits, and photovoltaics. D. Nirmal is Full Professor and Head of Electronics and Communication Engineering, Karunya Institute of Technology and Sciences. He specialized in VLSI Design after his Bachelor of Engineering and received his Ph.D in Information and Communication Engineering from Anna University. His research interests include nanoelectronics, GaN technology, device and circuit simulation – GSL, sensors, HEMT, beyond 5G, nanoscale device design and modelling. He is a founding chair of IEEE Electron Device Society Coimbatore chapter and volunteered for several committees in IEEE. He has a funding project tune of 1.2 Cores from various agencies like DRDO (Defence Research and Development Organization), Ministry of Electronics and Information Technology, ISRO (Indian Space Research Organization), and AICTE(All India Council of Technical Education). He is a recipient of various awards namely IEI-Young Engineer award, IETE Smt. Manorama Rathore memorial award 2022 from IETE and Young Scientist Award 2019 from the Academy of Sciences. Professor Nirmal has made more than 150+ peer reviewed research publications and three patents to his credits. He is also a Senior IEEE member. He has delivered many keynote talks and lectures in national and international level conferences/faculty development programs.

1. Piezoelectric Materials for Energy Harvesting Applications
2. An Overview of Fuel Cells and Supercapacitors
3. Promising Electrode Materials for Hybrid Supercapacitors
4. Constructive Approach Towards Design of High-Performance Thermoelectrics, Thermal Diodes, and Thermomagnetic Devices for Energy Generation Applications
5. Chemical Aspects of Ligand Exchange in Semiconductor Nanocrystals and Its Impact on the Performance of Future Generation Solar Cells
6. Tunnel FET-Based Ultra-Low-Power Circuits for Energy Harvesting Applications
7. Biodegradable Energy Storage Devices
8. High-Energy-Density Lithium-Ion Batteries for Future Power Systems
9. Recent Advances in Dielectric Materials for Energy Storage Devices: A Comprehensive Overview
10. Ferrofluid-Based Nanogenerators for Self-Power Generation in Electronic Devices
11. Wind Energy Harvesting and Involved Power Electronics Conversion Systems for Smart Grid Interfacing
12. Trends in Energy Storage Devices Incorporating Lead-Acid Batteries and Supercapacitors for Smart Grid Applications