Teymoor Ghanbari | Nanogenerators | Best Researcher Award

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Prof. Teymoor Ghanbari | Nanogenerators | Best Researcher Award

Faculty Member at Shiraz University , Iran.

Prof. Teymoor Ghanbari is a distinguished Full Professor at Shiraz University, renowned for his extensive contributions to electrical engineering. His research focuses on the design, modeling, and fabrication of electrical systems, including innovative hysteresis motors and fault current limiters. Prof. Ghanbari’s work has had significant geographic impact, improving power systems and energy efficiency both within Iran and internationally. He has published over 100 journal papers, more than 50 conference papers, and holds six patents, reflecting his prolific output and influence. His awards include being ranked among the top 1% of scientists globally by WOS and ESI, and he has been recognized as an outstanding professor in research multiple times. Prof. Ghanbari’s expertise extends to applied research in power system management, with practical projects enhancing reliability and safety. His notable achievements and global recognition highlight his exceptional contributions to the field of electrical engineering.

Profile
Education

Prof. Teymoor Ghanbari’s educational journey reflects his deep commitment to electrical engineering. He earned his PhD in Electrical Engineering from Shiraz University in October 2012. His doctoral dissertation, titled “Initial Management of Transients in Microgrids, Challenges and Strategies,” was supervised by Prof. Ebrahim Farjah, Dr. Haidar Samet, Prof. Mahmud Fotoohi, and Dr. Mohammad Mohammadi. Prior to his PhD, Prof. Ghanbari completed his Master’s degree at Shahrood University of Technology in October 2007, where he focused on the “Analysis of Dynamic Behaviors of Hysteresis Motor Using a Suitable Model,” under the guidance of Prof. Ahmad Darabi. His academic foundation began with a Bachelor’s degree in Electrical Engineering from Sh. Rajaee University, completed in May 1997. This rigorous educational background has laid the groundwork for his innovative contributions to the field of electrical engineering.

Professional Experience

Prof. Teymoor Ghanbari, a Full Professor at Shiraz University, has a distinguished career in electrical engineering, marked by significant contributions to power systems and electrical motor technology. His professional journey began with the invention of several types of hysteresis motors and the development of fault current limiters for AC and DC power systems. He has led projects on power systems components monitoring, transient limiters, and energy efficiency improvements. Notable achievements include designing a battery management system for SOHA satellite and assessing fault ride-through capabilities for PV farms. Prof. Ghanbari’s leadership extends to academic and conference roles, including serving as a scientific chair at major international conferences. His expertise is recognized globally, with multiple awards and a strong publication record, underscoring his impact on both theoretical and applied aspects of electrical engineering.

Research Interest

Prof. Teymoor Ghanbari’s research interests are primarily centered around electrical engineering, focusing on the modeling, design, and fabrication of electrical systems and components. His work encompasses a wide range of areas, including the invention of various hysteresis motors and the development of fault current limiters for both AC and DC power systems. Prof. Ghanbari’s research also delves into power system monitoring, failure detection, and the implementation of advanced protection approaches for electric motors, transformers, and converters. His innovative projects include designing transient limiters, developing battery management systems, and assessing the fault ride-through capabilities of large-scale photovoltaic farms. With a strong emphasis on practical applications and real-world problem-solving, Prof. Ghanbari’s research aims to enhance the reliability, efficiency, and safety of electrical systems and power management technologies.

Research Skills

Prof. Teymoor Ghanbari exhibits exceptional research skills in the field of electrical engineering, showcasing a profound expertise in modeling, design, and fabrication of advanced electrical systems. His skills include the development of innovative hysteresis motors and fault current limiters, demonstrating a strong grasp of complex engineering principles and applications. Prof. Ghanbari excels in applied research, with a notable ability to translate theoretical concepts into practical solutions for power systems management and fault detection. His proficiency extends to designing transient limiters and monitoring systems, reflecting his capability in addressing real-world challenges in energy efficiency and system reliability. Additionally, his extensive publication record and patent portfolio highlight his ability to conduct rigorous research and contribute valuable knowledge to the field. Prof. Ghanbari’s skills are further evidenced by his leadership roles in academic conferences and his mentorship of graduate students, underscoring his commitment to advancing research and fostering innovation.

Parasitology and Infectious Diseases

Prof. Ghanbari’s research does not focus on parasitology or infectious diseases. His expertise is centered around electrical engineering and power systems, with no direct contributions to these fields.

Awards and Recognition

Prof. Ghanbari has received several prestigious awards and recognitions, including being ranked among the top 1% of scientists globally by WOS and ESI. He has also been recognized as an outstanding professor in research at Shiraz University and Fars province. His inclusion in the World’s Top 2% Scientists List by Stanford University and Elsevier further highlights his significant impact in his field.

Conclusion

Prof. Teymoor Ghanbari’s extensive research contributions, applied innovations, and global impact make him a strong candidate for the Best Researcher Award. His work in electrical engineering, particularly in developing advanced power system technologies and fault detection methods, demonstrates his leadership and dedication to advancing the field. His numerous awards and recognitions underscore his exceptional achievements and contributions to the scientific community.

Publications Top Notes

  1. Fault ride through enhancement of large-scale solar plants using distributed converters
    • Authors: S.M.H. Mousavi, T. Ghanbari, E. Farjah, A. Mehraban
    • Year: 2024
  2. Stator winding fault detection of induction motors using fast Fourier transform on rotor slot harmonics and least square analysis of the Park’s vectors
    • Authors: T. Ghanbari, A. Mehraban
    • Year: 2024
  3. AI-Based Control of Storage Capacity in High-Power-Density Energy Storage Systems, Used in Electric Vehicles
    • Authors: A. Mehraban, T. Ghanbari, E. Farjah
    • Year: 2024
    • Citations: 5
  4. Adaptation of Triboelectric Nanogenerators to the Integrated Energy Storages by a Textured Multi-Segment Structure
    • Authors: N. Sharif, T. Ghanbari, Z. Hosseini, K. Shahbazi, A. Mehraban
    • Year: 2024
  5. Integrated Optimal Energy Management and Sizing of Hybrid Battery/Flywheel Energy Storage for Electric Vehicles
    • Authors: A. Mehraban, E. Farjah, T. Ghanbari, L. Garbuio
    • Year: 2023
    • Citations: 4
  6. Application of a Rogowski Coil Sensor for Separating Internal and External Partial Discharge Pulses in Power Transformers
    • Authors: S. Sharifinia, M. Allahbakhshi, T. Ghanbari, H. Pakniat
    • Year: 2023
    • Citations: 2
  7. Fault Detection in DC Microgrid: A Transient Monitoring Function-Based Method
    • Authors: M.A. Jarrahi, H. Samet, T. Ghanbari
    • Year: 2023
    • Citations: 4
  8. A Modular Unipolar/Bipolar High-Voltage Pulse Generator Suitable for High Resistive Load
    • Authors: M. Taherian, S. Roshan, M. Allahbakhshi, E. Farjah, T. Ghanbari
    • Year: 2023
    • Citations: 1
  9. Dynamic Polynomial Models With ARMA Coefficients Used for Modeling the DC Series Arc Fault in Photovoltaic Systems
    • Authors: M. Jalil, H. Samet, T. Ghanbari
    • Year: 2023
    • Citations: 2
  10. Partial shading detection and hotspot prediction in photovoltaic systems based on numerical differentiation and integration of the P − V curves
    • Authors: M. Khodapanah, T. Ghanbari, E. Moshksar, Z. Hosseini
    • Year: 2023
    • Citations: 9

 

 

Tsuksa Nabekura | Immunology and Microbiology | Best Researcher Award

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Prof. Tsukasa Nabekura | Immunology and Microbiology | Best Researcher Award

Ph.D. at Aichi Cancer Center Research Institute , Japan.

Dr. Tsukasa Nabekura is a prominent immunologist known for his groundbreaking research on natural killer (NK) cells. Since 2008, he has made significant contributions to understanding NK cell receptors and their roles in immune responses to viral infections, cancer, and tissue injury. His work has led to key insights into NK cell differentiation, function, and memory, as evidenced by his publications in high-impact journals like Immunity and Journal of Experimental Medicine. Dr. Nabekura’s research has global significance, with collaborations spanning institutions such as the University of California, San Francisco, and the University of Tsukuba, Japan. His achievements have been recognized with prestigious awards, including the Young Investigator Award from the Japanese Society of Immunology and the BEST FACULTY MEMBER award. Dr. Nabekura’s research continues to advance the field of immunology, with potential implications for therapeutic strategies in cancer and infectious diseases.

Profile
Education

Dr. Tsukasa Nabekura’s educational background reflects a strong foundation in biological and medical sciences. He completed his Bachelor of Science in Biology in March 2003, followed by a Master of Arts in Medical Science in March 2005, both from the University of Tsukuba, Japan. Dr. Nabekura then pursued a Ph.D. in Medicine at the same institution, graduating in March 2008. His commitment to advancing his expertise continued with postdoctoral research at the University of Tsukuba, where he focused on Immunology and completed his postdoc in October 2011. Further enhancing his qualifications, he undertook an additional postdoctoral fellowship at the University of California, San Francisco, from October 2014. This extensive educational journey equipped Dr. Nabekura with a deep understanding of immunology and cell biology, setting the stage for his influential research on natural killer (NK) cells and their roles in immune responses.

Professional Experience

Dr. Tsukasa Nabekura has built a distinguished career in immunology with a focus on natural killer (NK) cells. After completing his postdoctoral research in immunology at the University of California, San Francisco, he returned to Japan as an Assistant Professor in the Life Science Center of Tsukuba Advanced Research Alliance at the University of Tsukuba. His expertise led him to roles at the Life Science Center for Survival Dynamics and the Division of Immune Response at the Aichi Cancer Center Research Institute. Dr. Nabekura’s professional trajectory reflects a strong commitment to advancing immunological research and understanding NK cell biology. His career is marked by his significant contributions to the field through his research on NK cell function and memory, collaborative efforts with leading scientists, and the recognition he has received through various awards and honors.

Research Interest

Dr. Tsukasa Nabekura’s research interests center on the intricate roles of natural killer (NK) cells in immune responses. Since 2008, his work has delved into how NK receptors and associated molecules influence innate and adaptive immunity against viral infections, cancer, and acute tissue injury. His research has elucidated the pivotal role of DNAX accessory molecule-1 (DNAM-1) in NK cell memory differentiation and its impact on acute graft-versus-host disease. Dr. Nabekura has also investigated how activating receptors enhance NK cell functions and memory during infections. His recent studies focus on the regulatory functions of Themis2 in NK cell memory and antitumor activity. By exploring these aspects, Dr. Nabekura aims to advance our understanding of immune responses and contribute to the development of new therapeutic strategies for treating cancer and viral diseases.

Research Skills

Dr. Tsukasa Nabekura possesses a diverse range of advanced research skills that underscore his expertise in immunology. His proficiency in cellular and molecular immunology is evident from his extensive work on natural killer (NK) cells, including their receptors and associated molecules. He has demonstrated exceptional skills in experimental design and execution, particularly in studying NK cell function during viral infections and cancer. Dr. Nabekura’s expertise extends to cutting-edge techniques in cell biology, including flow cytometry, immunohistochemistry, and cytokine profiling. His ability to collaborate with leading researchers and institutions further highlights his strong skills in cross-disciplinary research and team-based science. Additionally, Dr. Nabekura’s experience in securing research fellowships and grants reflects his competence in research proposal development and project management. His comprehensive approach to studying immune responses and his successful publication record illustrate his high level of research acumen and dedication to advancing scientific knowledge.

Awards and Recognition

Dr. Nabekura has received numerous awards, including the Young Investigator Award from the Japanese Society of Immunology and the BEST FACULTY MEMBER award at the University of Tsukuba. These accolades reflect his outstanding contributions and recognition within the scientific community.

Conclusion

Dr. Tsukasa Nabekura’s exceptional research on NK cells and immune responses demonstrates his profound impact on the field of immunology. His contributions to understanding immune mechanisms, his collaborative efforts, and his recognition through various awards underscore his suitability for the Research for Best Researcher Award. His work continues to advance scientific knowledge and has the potential to influence therapeutic strategies for infectious diseases and cancer.

Publications Top Notes

  • THEMIS2 Impairs Antitumor Activity of NK Cells by Suppressing Activating NK Receptor Signaling
    • Authors: E.A. Deborah, T. Nabekura, K. Shibuya, A. Shibuya
    • Year: 2024
  • Themis2 regulates natural killer cell memory function and formation
    • Authors: T. Nabekura, E.A. Deborah, S. Tahara, M. Muratani, A. Shibuya
    • Year: 2023
    • Citations: 4
  • DNAM-1 Immunoreceptor Protects Mice from Concanavalin A-Induced Acute Liver Injury by Reducing Neutrophil Infiltration
    • Authors: S. Matsuo, T. Nabekura, K. Matsuda, K. Shibuya, A. Shibuya
    • Year: 2023
    • Citations: 1
  • Liver type 1 innate lymphoid cells lacking IL-7 receptor are a native killer cell subset fostered by parenchymal niches
    • Authors: T. Asahi, S. Abe, G. Cui, H. Ohno, K. Ikuta
    • Year: 2023
    • Citations: 4
  • The CD16 and CD32b Fc-gamma receptors regulate antibody-mediated responses in mouse natural killer cells
    • Authors: O.A. Aguilar, M.D.R. Gonzalez-Hinojosa, J.S. Arakawa-Hoyt, T. Nabekura, L.L. Lanier
    • Year: 2023
    • Citations: 8
  • Early reactivation of clustered genes on the inactive X chromosome during somatic cell reprogramming
    • Authors: S. Aizawa, K. Nishimura, G.S. Mondejar, Y. Hayashi, K. Hisatake
    • Year: 2022
    • Citations: 3
  • Erratum: Corrigendum to selective expression of a C-type lectin receptor, Clec12b, on skin mast cells
    • Authors: A. Iijima, K. Kanemaru, Y. Wang, S. Tahara-Hanaoka, A. Shibuya
    • Year: 2021
  • Selective expression of a C-type lectin receptor, Clec12b, on skin mast cells
    • Authors: A. Iijima, K. Kanemaru, Y. Wang, S. Tahara-Hanaoka, A. Shibuya
    • Year: 2021
  • Type 1 innate lymphoid cells: Soldiers at the front line of immunity
    • Authors: T. Nabekura, A. Shibuya
    • Year: 2021
    • Citations: 17
  • ILC1: guardians of the oral mucosa against enemy viruses
    • Authors: T. Nabekura, A. Shibuya
    • Year: 2021
    • Citations: 7