Zeinab Ramezani – Semiconductor Devices – Best Researcher Award

Posted on by AMO Physics

Dr. Zeinab Ramezani began her academic journey with a strong foundation in mathematics and physics, ranking 1st among 120 students in high school. She pursued her B.Sc. in Electrical Engineering at Shariaty Technical College, Tehran, graduating top of her class in 2010. Her passion for Semiconductor Devices was evident early on, culminating in her M.Sc. and Ph.D. studies at Semnan University, where she ranked 1st among all M.Sc. and Ph.D. graduates in Electronics Engineering. Her academic path laid the groundwork for her specialized focus on Semiconductor Devices, nanoelectronics, and cutting-edge modeling techniques.

💼 Professional Endeavors

Throughout her career, DR. Ramezani has demonstrated excellence in both academia and research. She held several teaching and research positions, including Assistant Professor and Lecturer at Islamic Azad University and Shariaty Technical College, where she instructed courses in Semiconductor Devices and Devices , digital design, and linear integrated circuits. Her international experience includes serving as a Teaching Assistant at the University of Miami, where she was involved in practical instruction for Digital Design courses and labs. Additionally, she contributed to DARPA’s prestigious N3 project and NSF-funded research, focusing on magnetoelectric nanoparticles for brain-computer interfacing, bridging the gap between nanotechnology and neuroengineering.

🔬 Contributions and Research Focus

Dr. Zeinab Ramezani has significantly contributed to the modeling and analysis of Semiconductor Devices across micro and nanoscale technologies. Her research spans a broad spectrum, including SOI technology, Schottky barrier devices, junctionless transistors, FinFETs, and memristors. Her first Ph.D. focused on modeling short channel effects in nanoscale transistors, while her second Ph.D. at the University of Miami explored magnetoelectric nanoparticles for medical stimulation applications. Her interdisciplinary contributions reflect a deep understanding of both traditional Semiconductor Devices and futuristic applications like nanomedicine and neuromodulation.

🌍 Impact and Influence

Dr. Ramezani's influence is widely acknowledged in both Iranian and international academic communities. She has supervised over 80 theses, reviewed more than 40 graduate and undergraduate projects, and established laboratories for electronics and FPGA systems. Recognized for her innovative teaching and mentorship, she was awarded Top Female Inventor (2019) and Top Electrical Engineering Professor (2018) by IAU. Her contributions have influenced a generation of engineers in the field of Semiconductor Devices, as well as emerging fields like bioelectronics and neurotechnologies.

🏆Academic Cites

Dr. Ramezani's research output has been well received in scientific communities. Her thesis work, journal publications, and technical modeling in Semiconductor Devices  and medical electronics have attracted citations in both domestic and international research. Her work has been referenced in key areas such as transistor scaling, ion drift models in memristors, and advanced circuit simulation, underlining her position as a trusted authority in nanoelectronics and medical applications.

🌟 Legacy and Future Contributions

Dr. Zeinab Ramezani’S legacy is built on academic excellence, technological innovation, and a commitment to nurturing future engineers. Her future goals include expanding research on multifunctional nanoparticles, deepening her work in neuro-nanotechnology, and continuing to develop smarter, more efficient Semiconductor Devices  for medical and computational purposes. Her efforts will not only shape next-generation electronics but also push forward the integration of nanotechnology in medicine and cognitive interfaces.

📝Semiconductor Devices

Her distinguished research in Semiconductor Devices  has redefined modeling strategies for modern electronics, particularly in SOI and nanoscale transistor structures. By integrating her deep knowledge of Semiconductor Devices  with applications in neural stimulation and multifunctional nanoparticles, she bridges multiple domains. Her continued innovations in Semiconductor Devices  are expected to influence future trends in electronics, neuromodulation, and medical diagnostics.

Notable Publication

📝Functionalized Terahertz Plasmonic Metasensors: Femtomolar-level Detection of SARS-CoV-2 Spike Proteins

Authors: A. Ahmadivand, B. Gerislioglu, Z. Ramezani, A. Kaushik, P. Manickam, ...

Journal: Biosensors and Bioelectronics, 2021

Citations: 307

📝Gated Graphene Island-enabled Tunable Charge Transfer Plasmon Terahertz Metamodulator

Authors: A. Ahmadivand, B. Gerislioglu, Z. Ramezani

Journal: Nanoscale, 2019

Citations: 136

📝Attomolar Detection of Low-molecular Weight Antibiotics Using Midinfrared-resonant Toroidal Plasmonic Metachip Technology

Authors: A. Ahmadivand, B. Gerislioglu, Z. Ramezani, S.A. Ghoreishi

Journal: Physical Review Applied, 2019

Citations: 67

📝Generation of Magnetoelectric Photocurrents Using Toroidal Resonances: A New Class of Infrared Plasmonic Photodetectors

Authors: A. Ahmadivand, B. Gerislioglu, Z. Ramezani

Journal: Nanoscale, 2019

Citations: 62

📝A Nanoscale‐modified Band Energy Junctionless Transistor with Considerable Progress on the Electrical and Frequency Issue

Authors: M.K. Anvarifard, Z. Ramezani, I.S. Amiri, A.M. Nejad

Journal: Materials Science in Semiconductor Processing, 2020

Citations: 51

📝High Ability of a Reliable Novel TFET-based Device in Detection of Biomolecule Specifies—A Comprehensive Analysis on Sensing Performance

Authors: M.K. Anvarifard, Z. Ramezani, I.S. Amiri

Journal: IEEE Sensors Journal, 2020

Citations: 48

📝Designing Chitosan Nanoparticles Embedded into Graphene Oxide as a Drug Delivery System

Authors: S.M. Hosseini, S. Mazinani, M. Abdouss, H. Kalhor, K. Kalantari, I.S. Amiri, ...

Journal: Polymer Bulletin, 2021

Citations: 39

Jaya Madan | Semiconductor Devices | Best Researcher Award  

Posted on by AMO Physics

Dr. Jaya Madan | Semiconductor Devices | Best Researcher Award  

Chitkara University | India 

AUTHOR PROFILE

EARLY ACADEMIC PURSUITS

Jaya Madan's academic journey began with stellar performance in her secondary and senior secondary education, topping her school in Class X and scoring an impressive 83.66% in PCM during her senior secondary at Rajkiya Pratibha Vikas Vidyalaya, Rohini, Delhi. She pursued her undergraduate degree in B.Sc. (H) Electronics at Keshav Mahavidyalaya, University of Delhi, graduating with an outstanding 81.73%. Her academic excellence continued in her postgraduate studies in Electronics at the University of Delhi, South Campus, where she secured 82.71%.

PROFESSIONAL ENDEAVORS

Dr. Jaya Madan's professional journey is marked by her contributions as a researcher and educator. She served as a Junior Research Fellow (JRF) and Senior Research Fellow (SRF) under the UGC-JRF Fellowship scheme at Delhi Technological University (DTU) from 2013 to 2017. She then transitioned into academia as an Assistant Professor at ABES Institute of Technology, Ghaziabad, and later at Chitkara University, Punjab, where she continues to impart knowledge and guide research.

CONTRIBUTIONS AND RESEARCH FOCUS

Dr. Madan's research is primarily focused on Semiconductor Devices, particularly nanoscale FETs and solar cells. Her Ph.D. dissertation titled "Simulation and Analysis of Gate All Around Tunnel FET for High Performance Analog and RF Applications" is a testament to her expertise. She has published extensively, with 10 journal papers and numerous conference presentations. Her work on Tunnel FETs and solar cells has significant implications for the development of advanced semiconductor devices.

IMPACT AND INFLUENCE

Dr. Madan's contributions have been widely recognized, earning her a place in the Stanford University list of the World's Top 2% scientists for two consecutive years, 2022 and 2023. She has received multiple awards for excellence in research, including the Excellence in Research Publications Award and the Research Publication Incentive Award from Chitkara University. Her research has been funded by prestigious institutions, and she has been granted several patents, further underscoring her impact in the field of Semiconductor Devices.

ACADEMIC CITES AND LEGACY

Throughout her career, Dr. Madan has guided numerous students, with four Ph.D. candidates having defended their theses under her supervision. Her guidance extends to M.E. thesis projects, demonstrating her commitment to fostering the next generation of researchers in the field of Semiconductor Devices. Her publications and patents contribute to a robust body of knowledge that will influence future research and innovation.

FUTURE CONTRIBUTIONS

Looking ahead, Dr. Madan is poised to continue her pioneering work in Semiconductor Devices, focusing on the development of high-efficiency solar cells and advanced FETs. Her ongoing research guidance and innovative patents suggest a future rich with breakthroughs that will advance the capabilities and applications of semiconductor technology.

SEMICONDUCTOR DEVICES RESEARCH

Dr. Madan's research on Semiconductor Devices encompasses a wide range of topics, including nanoscale FETs like MOSFETs, Tunnel FETs, FinFETs, and Gate-All-Around FETs, as well as advanced solar cells such as tandem solar cells and thin film solar cells. Her work with TCAD simulations and analytical modeling is pivotal in developing new semiconductor technologies that enhance performance and efficiency.

In conclusion, Dr. Jaya Madan's illustrious career, marked by her extensive research, numerous awards, and impactful patents, solidifies her legacy in the field of Semiconductor Devices. Her contributions continue to influence both academia and industry, driving innovation and shaping the future of semiconductor technology.

NOTABLE PUBLICATION