Assist. Prof. Dr. Bingqing Wang ,China Jiliang University, China

Dr. Bingqing Wang is an Assistant Professor at China Jiliang University, specializing in fluid sealing technology. She earned her doctoral degree in Chemical Process Machinery from Zhejiang University of Technology in 2019. Dr. Wang is dedicated to the development of high-performance sealing products and highly reliable sealing design methods. She has contributed significantly to her field, publishing 44 journal papers in reputed SCI and Scopus-indexed journals and securing 18 patents. Her research focuses on advancing sealing optimization design through innovative modeling and measurement techniques. As a member of the Chinese Society of Mechanical Engineering, she continues to drive impactful research and technological advancements in mechanical engineering, particularly in sealing technology applications.

🌍 Professional Profile:

Scopus

🏆 Suitability for the Best Researcher Award

Dr. Bingqing Wang’s pioneering research in fluid sealing technology makes her a strong candidate for the Best Researcher Award. Her work has significantly advanced the field through innovative methodologies such as the mixed thermoelastohydrodynamic lubrication model and new optimization designs for sealing systems. With 44 published journal papers and 18 patents, she has made substantial contributions to mechanical engineering. Her research has been cited 151 times, highlighting its influence. Additionally, Dr. Wang has completed four research projects and collaborated on multiple industry consultancies, demonstrating the real-world impact of her work. Her commitment to scientific innovation, practical problem-solving, and contributions to industrial applications make her highly deserving of recognition in this award category.

🎓 Education

Dr. Bingqing Wang obtained her doctoral degree in Chemical Process Machinery from Zhejiang University of Technology in 2019. Her academic journey has been centered around mechanical engineering, with a focus on fluid sealing technology. She has specialized in developing advanced methods for sealing performance optimization and reliability enhancement. Her education provided her with expertise in mechanical systems, fluid dynamics, and material interactions, which she has applied extensively in her research. During her doctoral studies, she worked on groundbreaking methodologies to improve the efficiency and durability of fluid sealing systems. With a strong foundation in engineering principles and research methodologies, Dr. Wang has continued to contribute to academia and industry through her innovative approaches in sealing technology.

🏢 Work Experience

Dr. Bingqing Wang has been serving as an Assistant Professor at the School of Mechanical and Electrical Engineering, China Jiliang University, since 2019. With extensive experience in fluid sealing technology, she has completed four major research projects and collaborated on industry consultancy projects, applying her expertise to solve real-world engineering problems. Her research contributions include the development of novel sealing optimization techniques, as well as innovative measurement methods for hydraulic reciprocating seals. She has published 44 journal papers and holds 18 patents, demonstrating her commitment to scientific advancements. Through her work, she has contributed significantly to the development of high-performance sealing systems, making a lasting impact in both academic research and industrial applications.

🏅 Awards and Honors

Dr. Bingqing Wang has earned recognition for her contributions to fluid sealing technology through multiple achievements, including 44 published journal articles in high-impact SCI and Scopus-indexed journals. She holds 18 patents, showcasing her innovation in mechanical engineering. With 151 citations, her research has gained international recognition. She has successfully completed four funded research projects and collaborated on industry consultancy projects, reflecting the practical applications of her work. As a member of the Chinese Society of Mechanical Engineering, she is actively engaged in professional research communities. While specific awards and honors are not listed, her prolific contributions to sealing technology and mechanical engineering position her as a highly respected researcher in her field, making her a strong award candidate.

🔬 Research Focus

Dr. Bingqing Wang’s research primarily focuses on fluid sealing technology, with an emphasis on enhancing the reliability and performance of sealing systems. She has pioneered several innovative approaches, including a mixed thermoelastohydrodynamic lubrication model for the “rod-fluid film-seal” system, improving sealing efficiency. Additionally, she developed a novel method for simultaneously measuring the frictional force and leakage rate of hydraulic reciprocating seals, a breakthrough in sealing performance analysis. Her work contributes to the design of more durable and effective sealing solutions, with applications in various industrial sectors. Through extensive publication and patent development, Dr. Wang continues to advance the field, offering practical solutions to engineering challenges while fostering scientific progress in mechanical and fluid sealing technology.

📊 Publication Top Notes:

Thermal-Gas-Elastic Coupling Modeling and Performance Analysis of Foil Cylindrical Gas Film Seal Considering Speed Slip, Temperature Jump, and Shaft Misalignment”
- Authors: Long Chen, Yuan Chen, Yuntang Li, Dan Wang, Bingqing Wang
- Journal: Journal of Tribology
- Year: 2025
- Citations: 0
- “Leakage Control Design and Performance Analysis on Upstream Pumping Compliant Foil Face Gas Seal”
  - Authors: Yuan Chen, Yushi Li, Yuntang Li, Bingqing Wang, Xudong Peng
  - Journal: Industrial Lubrication and Tribology
  - Year: 2025
  - Citations: 0
“Investigation of the Effects of Hydrogen Addition on Explosion Characteristics and Pressure Fluctuations of Ethyl Acetate”
- Authors: Ce Liang, Xiaolu Li, Cangsu Xu, Bingqing Wang, Jiangqin Ge
- Journal: Energies
- Year: 2024
- Citations: 0

Koagne Longpa Tamo Silas | Electronics Engineering | Best Researcher Award

Posted on 28/03/202528/03/2025 by sciencefather

Mr. Koagne Longpa Tamo Silas| Electronics Engineering| Best Researcher Award

Mr. Koagne Longpa Tamo Silas ,University of Dschang,, Cameroon

KOAGNE LONGPA TAMO Silas is a dedicated researcher specializing in medical physics and applied computer science. Born on July 12, 1998, in Mbouda, Cameroon, he is currently a Ph.D. student in Physics at Dschang State University. His research explores Artificial Neural Networks, Embedded Systems, and Circuit Simulation. With experience in teaching and industrial training, he has contributed significantly to electronics and medical automation. His expertise spans digital electronics, microcontroller programming, and electronic design automation. Silas has presented innovative projects, such as digital breath alcohol detection and RFID-based attendance systems. His work demonstrates strong analytical and problem-solving skills, making him a promising candidate for the Best Researcher Award for his contributions to applied physics and automation.

🌍 Professional Profile:

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Google scholar

🏆 Suitability for the Best Researcher Award

Silas’s research contributions in medical physics, artificial intelligence, and embedded systems have had a notable impact on medical automation. His groundbreaking work in multilayer perceptron analog artificial neural networks and electronic attendance systems highlights his ability to develop real-world applications. His expertise in circuit simulation, digital electronics, and signal processing showcases technical proficiency, while his teaching and industrial experience demonstrate dedication to knowledge dissemination. Silas’s innovative projects, including medical diagnostic tools and automated monitoring systems, align with current technological advancements in healthcare and automation. His commitment to interdisciplinary research and applied electronics in medical physics makes him a deserving candidate for the Best Researcher Award in recognition of his contributions to science and technology.

🎓 Education

Silas holds multiple degrees in physics and electronics, demonstrating a strong academic foundation. He earned an M.Sc. in Physics (Electronics Specialization) from Dschang State University in 2022, focusing on multilayer perceptron analog artificial neural networks under Dr. DJIMELI TSAJIO Alain B. He also holds a B.Sc. in Physics (2021) and DIPET 2 in Electronics (2020) from Bamenda State University, where he designed a breath alcohol detection system with SMS alert and vehicle tracking. His DIPET 1 in Electronics (2018) involved an RFID-based electronic attendance system. With GCE Advanced Level (2015) and Ordinary Level (2013) qualifications, Silas has built a solid academic background in electronics, automation, and applied physics, strengthening his expertise in research and innovation.

🏢 Work Experience

Silas has academic and industrial experience in electronics and computer science. He is currently an Electronics Teacher at Government Technical College Ngombo-ku since 2021. Previously, he was a Junior Lecturer in Computer Science at Higher Technical Teacher Training College Bambili (2019-2020) and taught at Government Technical High School Bambui (2017-2018). His industrial experience includes internships at HYTECHS-Yaoundé (2019), where he worked on HP INKJET and RICOH printer maintenance, and MEECH CAM Sarl-Yaoundé (2016), where he specialized in electrical cable installations and high-voltage network maintenance. His experience in circuit simulation, embedded systems, and programming (MATLAB, Arduino, MikroC) showcases his expertise in electronics and automation.

🏅 Awards and Honors

Silas has demonstrated academic excellence and innovation in applied physics and electronics. His RFID-based attendance system project and breath alcohol detection system with vehicle tracking received recognition for their practical applications. His multilayer perceptron analog artificial neural networks research has contributed significantly to medical physics automation. Throughout his academic career, he has been acknowledged for his outstanding technical skills, leadership in research projects, and commitment to innovative problem-solving. His teaching excellence and industrial contributions have also earned him respect in academia and the electronics industry. These achievements position him as a strong candidate for prestigious research awards in the fields of medical automation and applied physics.

🔬 Research Focus

Silas’s research centers on medical physics, artificial intelligence, and embedded systems. His expertise in analog artificial neural networks, circuit simulation, and microcontroller programming enables the development of advanced medical diagnostic tools and automation systems. He focuses on electronics and communication, digital signal processing, and electronic design automation to enhance medical imaging and monitoring technologies. His studies in embedded systems programming and analog electronics contribute to innovations in healthcare automation. By integrating Spice Simulation, Cadence Virtuoso, and AI-driven medical devices, Silas aims to revolutionize automated diagnostics and real-time monitoring systems. His interdisciplinary research reflects technological advancements in medical applications, positioning him as a leading researcher in applied physics and automation.

📊 Publication Top Notes:

1. K. L. T. Silas, D. T. A. Bernard, F. T. Bernard, L. Jean-Pierre, and G. W. Ejuh, “A High-Resolution Non-Volatile Floating Gate Transistor Memory Cell for On-Chip Learning in Analog Artificial Neural Networks,” 2025.
2. B. Djimeli-Tsajio Alain, K. L. T. Silas, L. T. Jean-Pierre, N. Thierry, and G. W. Ejuh, “Breast Cancer Diagnosis with Machine Learning Using Feed-Forward Multilayer Perceptron Analog Artificial Neural Network,” 2024.
3. K. L. T. Silas, “Design and Implementation of a Digital Breath Alcohol Detection System with SMS Alert and Vehicle Tracking on Google Map,” 2020.
4. M. K. Jules, “Design and Realization of an Electronic Attendance System Based on RFID with an Automatic Door Unit,” 2020.

Stefan Kreuzer |Orthopedic research on knee biomechanics | Best Researcher Award

Posted on 28/03/202528/03/2025 by sciencefather

Dr. Stefan Kreuzer| Orthopedic research on knee biomechanics| Best Researcher Award

Dr. Stefan Kreuzer INOV8 Research, United States

Dr. Stefan W. Kreuzer is a distinguished orthopedic surgeon specializing in adult joint reconstruction. He earned his M.D. from the University of Texas Health Science Center at San Antonio and completed his residency in orthopedic surgery at UT Medical Branch, where he served as Chief Resident. He further honed his expertise through a fellowship at Baylor College of Medicine. As the founder of INOV8 Healthcare and several other orthopedic ventures, Dr. Kreuzer has pioneered advancements in knee replacement and orthopedic technologies. He holds multiple advisory board positions and has received numerous accolades for his contributions to the field. His work emphasizes innovation in orthopedic surgery, particularly in precision-guided techniques and implant development, making him a leader in the field.

🌍 Professional Profile:

Orcid

🏆 Suitability for the Best Researcher Award

Dr. Stefan W. Kreuzer’s extensive contributions to orthopedic surgery research make him a prime candidate for the Best Researcher Award. His groundbreaking work in knee replacement techniques and resurfacing processes has earned him a U.S. patent. He has collaborated with leading medical device companies, such as Naviswiss, Restor3D, and Corin, contributing to innovations in orthopedic implants and surgical precision. Dr. Kreuzer has presented at prestigious conferences, participated in live surgery demonstrations, and served on multiple scientific advisory boards. His research-driven approach has significantly enhanced patient outcomes, reduced recovery times, and improved surgical accuracy. With a strong academic foundation and industry impact, his dedication to advancing orthopedic research and technology is highly commendable.

🎓 Education

Dr. Stefan W. Kreuzer completed his Doctor of Medicine (M.D.) at the University of Texas Health Science Center, San Antonio (1991-1995). He pursued a Master of Science in Molecular Biology and Biochemistry at Texas Tech University (1985-1987). His undergraduate education was at the University of Texas at Tyler and South Plains College. He then undertook an orthopedic surgery residency at the University of Texas Medical Branch (1995-2000), where he served as Administrative Chief Resident. He further specialized in adult joint reconstruction through a fellowship at Baylor College of Medicine (2000-2001). His diverse academic background in both medicine and biomedical sciences has provided him with a strong foundation for clinical excellence and innovative research in orthopedic surgery.

🏢 Work Experience

Dr. Stefan W. Kreuzer has over two decades of experience in orthopedic surgery and medical innovation. He is the founder of INOV8 Orthopedics, INOV8 Surgical, and several other ventures, focusing on advanced surgical solutions. He has served as an Assistant Professor at Baylor College of Medicine (2023-present) and previously held an Associate Professor role at UTHealth (2012-2016). His clinical expertise extends to multiple hospitals, including Houston Methodist West and Memorial Hermann Memorial City. He was Chief of Orthopedics at Memorial City Hospital (2004-2006) and has been actively involved in orthopedic research and advisory roles for leading medical technology companies. His contributions to surgical advancements and leadership in orthopedic care make him a highly respected figure in the field.

🏅 Awards and Honors

Dr. Stefan W. Kreuzer has received numerous awards for his contributions to orthopedic surgery and medical research. He was recognized as a “Physician Leader to Know” by Becker’s Hospital Review in 2023. In 2022, he was granted a patent for his innovative surgical process for knee replacement. During his residency, he won the Robert K. and Marie B. Hutchings Scholarship for Academic Excellence in Orthopedics (2000) and secured awards at the Texas Orthopedic Association (2000) and Houston Orthopedic Society (1999). He also received “The Golden Bone Award” in 1998. His early research earned him an American Cancer Society Fellowship. His dedication to medical excellence and innovative research has earned him significant recognition throughout his career.

🔬 Research Focus

Dr. Stefan W. Kreuzer’s research primarily focuses on advancing knee replacement techniques, orthopedic implant innovation, and precision-guided surgery. His patented surgical process for knee replacement has improved accuracy and patient outcomes. He collaborates with medical device companies such as Naviswiss, Restor3D, and Corin to develop cutting-edge orthopedic solutions. His work emphasizes the integration of 3D printing, AI-driven surgical navigation, and minimally invasive procedures to enhance joint reconstruction. He has also contributed to infection control research through collaborations with Microgen DX. His studies aim to reduce recovery times, increase implant longevity, and optimize patient-specific surgical approaches. Through his extensive research and industry partnerships, Dr. Kreuzer continues to shape the future of orthopedic surgery.

📊 Publication Top Notes:

DeMoes, D., Borazjani, R., Orsi, A. D., Plaskos, C., & Kreuzer, S. (2025). Increased prevalence of lateral trochlear groove wear among valgus alignment subtypes by coronal knee alignment classification: A retrospective single-center study. Journal of Orthopaedics. https://doi.org/10.1016/j.jor.2025.03.050
Sharma, A., Birring, P., Acharya, N., Mehta, M., Liu Goldenhersh, N., Steinhaus, M., Wu, H. H., Hashmi, S., Park, D. Y., Lee, Y. P., et al. (2025). Decompression and fusion for lumbar degenerative spondylolisthesis is associated with higher early morbidity rates and risk of perioperative complications compared with decompression alone: A retrospective study in the United States. Asian Spine Journal. https://doi.org/10.31616/asj.2024.0279
Karasavvidis, T., Pagan, C. A., Sharma, A. K., Jerabek, S. A., Mayman, D. J., & Vigdorchik, J. M. (2024). Decreased instability in high-risk (Hip–Spine 2B) patients after modifications of surgical planning and technique. The Journal of Arthroplasty. https://doi.org/10.1016/j.arth.2024.04.043
Tedesco, A., Sharma, A. K., Acharya, N., Rublev, G., Hashmi, S., Wu, H. H., Lee, Y. P., Scolaro, J., & Bhatia, N. (2024). The role of perioperative nutritional status and supplementation in orthopaedic surgery. JBJS Reviews. https://doi.org/10.2106/JBJS.RVW.23.00242
Sharma, A. K., Plaskos, C., Shalhoub, S., Lawrence, D., Vigdorchik, J. M., & Lawrence, J. M. (2024). Ligament tension and balance before and after robotic-assisted total knee arthroplasty — Dynamic changes with increasing applied force. The Journal of Knee Surgery. https://doi.org/10.1055/s-0042-1760390

Ibrahim Seleem | Soft robots | Young Scientist Award

Posted on 28/03/202501/04/2025 by sciencefather

Assist. Prof. Dr. Ibrahim Seleem | Soft robots | Young Scientist Award

Assist. Prof. Dr. Ibrahim Seleem, Tokyo University of Science, Japan

Dr. Ibrahim A. Seleem is an accomplished researcher specializing in bioinspired robotics, motion planning, and human-robot interaction. Born on January 17, 1990, in Egypt, he holds a Ph.D. in Mechatronics and Robotics from Egypt-Japan University of Science and Technology (EJUST). With a passion for cutting-edge innovations, he has made significant contributions to soft robotics, especially in medical applications such as colonoscopy and rehabilitation. Dr. Seleem has a rich academic and research background, including postdoctoral positions in Japan. His work has been published in esteemed journals and conferences, showcasing his expertise in continuum robots and machine learning. Currently, he is a postdoctoral researcher at Tokyo University of Science, working on groundbreaking projects in robotics and automation. 🌟

🌍 Professional Profile:

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🏆 Suitability for the Young Scientist Award

Dr. Ibrahim A. Seleem‘s exceptional achievements in robotics and automation make him a standout candidate for the Young Scientist Award. At just 35, he has an impressive track record, including cutting-edge research on bioinspired and soft robotics for healthcare. His innovative solutions, such as extensible cable-driven robots for colonoscopy and wearable soft devices for rehabilitation, demonstrate ingenuity and societal impact. Dr. Seleem’s academic journey reflects excellence, with a Ph.D. and multiple postdoctoral positions in Japan, where he secured competitive grants and fellowships. His publications in prestigious journals, collaborative projects, and active participation in international conferences affirm his commitment to advancing robotics. Dr. Seleem exemplifies the spirit of a young scientist poised to revolutionize his field. 🚀🔬

🎓 Education

Dr. Ibrahim A. Seleem has a distinguished academic background in engineering and robotics. He earned his B.Sc. in Industrial Electronics and Control Engineering from Menoufia University, Egypt, where his thesis focused on designing and controlling a 5-axis CNC machine. He further pursued an M.Sc. in Mechatronics and Robotics at the Egypt-Japan University of Science and Technology (EJUST), working on trajectory generation and stability for under-actuated biped robots. His Ph.D., also from EJUST, explored demonstration-based pose planning and control for continuum robots, marking a significant contribution to robotic motion planning. Dr. Seleem’s academic credentials are bolstered by his scholarships and grants, underscoring his dedication to advancing knowledge and technology in robotics and control engineering. 🎓📚

🏢 Work Experience

Dr. Ibrahim A. Seleem brings over a decade of experience in teaching, research, and development. Starting as a Teaching Assistant at Menoufia University, he taught courses in nonlinear control systems, microcontrollers, and modular servo systems. He advanced to Assistant Professor and later pursued international research opportunities as a JSPS Fellow and Postdoctoral Researcher in Japan. At institutions like Waseda University and Tokyo University of Science, Dr. Seleem has worked on transformative projects in bioinspired and soft robotics, collaborating with renowned experts and publishing impactful studies. His work spans from designing tendon-driven robots to developing wearable rehabilitation devices, demonstrating his profound technical expertise and innovation in robotics. 🛠️🌍

🏅 Skills

Dr. Seleem possesses a robust skill set in robotics and automation. Proficient in programming languages such as MATLAB and Python, he excels in designing and simulating robotic systems. His expertise includes advanced tools like ROS, SolidWorks, and INVENTOR for robotic modeling and control. Multilingual, he communicates fluently in Arabic, English, and basic Japanese. Dr. Seleem’s academic skills encompass research, teaching, and publication using Office 365 and LATEX. His technical proficiency is matched by his creativity in solving complex problems in robotics and his ability to collaborate across disciplines, making him a valuable asset to any research team.

🔬 Research Focus

Dr. Ibrahim A. Seleem’s research revolves around bioinspired robotics, soft robotics, and human-robot interaction. His work aims to enhance the design, motion planning, and control of robots to address complex challenges, particularly in healthcare. Notable projects include developing tendon-driven soft robots with variable stiffness for minimally invasive procedures, pneumatic-actuated wearable devices for wrist rehabilitation, and imitation-based motion planning for continuum robots. Dr. Seleem integrates machine learning with robotics to achieve precise and adaptive control, making his research highly interdisciplinary. His focus on real-world applications, such as colonoscopy and rehabilitation, showcases the societal impact of his work, positioning him as a leader in robotics innovation. 🌐🔧

📊 Publication Top Notes:

Imitation-Based Motion Planning and Control of A Multi-Section Continuum Robot Interacting with the Environment
Citation: IEEE Robotics and Automation Letters, DOI: 10.1109/LRA.2023.3239306
Authors: Ibrahim A. Seleem, Haitham El-Hussieny, Hiroyuki Ishii
Year: 2023

Imitation-based Path Planning and Nonlinear Model Predictive Control of a Multi-Section Continuum Robots
Citation: Journal of Intelligent & Robotic Systems, DOI: 10.1007/s10846-023-01811-8
Authors: Ibrahim A. Seleem, Haitham El-Hussieny, Hiroyuki Ishii
Year: 2023

Recent Developments of Actuation Mechanisms for Continuum Robots: A Review
Citation: International Journal of Control, Automation and Systems, DOI: 10.1007/s12555-022-0159-8
Authors: Ibrahim A. Seleem, Haitham El-Hussieny, Hiroyuki Ishii
Year: 2023

Development and Stability Analysis of an Imitation Learning-based Pose Planning Approach for Multi-section Continuum Robot
Citation: IEEE Access, DOI: 10.1109/access.2020.2997636
Authors: Ibrahim Seleem
Year: 2020

Demonstration-Guided Pose Planning and Tracking for Multi-Section Continuum Robots Considering Robot Dynamics
Citation: IEEE Access, DOI: 10.1109/ACCESS.2019.2953122
Authors: Ibrahim A. Seleem, Samy F. M. Assal, Hiroyuki Ishii, Haitham El-Hussieny
Year: 2019

Development of a Demonstration-Guided Motion Planning for Multi-section Continuum Robots
Citation: 2018 IEEE International Conference on Systems, Man, and Cybernetics (SMC), DOI: 10.1109/smc.2018.00066
Authors: Ibrahim Seleem
Year: 2018

Motion Planning for Continuum Robots: A Learning from Demonstration Approach
Citation: 2018 27th IEEE International Symposium on Robot and Human Interactive Communication (RO-MAN), DOI: 10.1109/roman.2018.8525601
Authors: Ibrahim Seleem
Year: 2018

Cyclic gait planning and control of underactuated five-link biped robot during single support and impact phases for normal walking
Citation: 2018 IEEE International Conference on Industrial Technology (ICIT), DOI: 10.1109/icit.2018.8352163
Authors: Ibrahim Seleem
Year: 2018

Sliding mode control of underactuated five-link biped robot for climbing stairs based on real human data
Citation: 2017 IEEE International Conference on Industrial Technology (ICIT), DOI: 10.1109/icit.2017.7915475
Authors: Ibrahim Seleem
Year: 2017

A Neuro Fuzzy-Based Gait Trajectory Generator for a Biped Robot Using Kinect Data
Citation: 2016 3rd International Conference on Information Science and Control Engineering (ICISCE), DOI: 10.1109/icisce.2016.168
Authors: Ibrahim Seleem
Year: 2016

Hoon Choi | Chemical Engineering | Best Researcher Award

Posted on 27/03/202527/03/2025 by sciencefather

Dr. Hoon Choi | Chemical Engineering| Best Researcher Award

Dr. Hoon Choi NREL, United States

Dr. Hoon Choi is a distinguished researcher and Staff Scientist-Separation Engineer at the National Renewable Energy Laboratory (NREL). With expertise in chemical engineering and advanced separation technologies, he has made significant contributions to renewable energy and sustainable materials processing. He holds a Ph.D. from Purdue University and has conducted extensive research on chromatographic separations, lithium recovery, and bioprocessing. Dr. Choi has received numerous awards, including the President’s Award at NREL and multiple Key Contribution Awards. As a member of several DOE consortia, he actively collaborates on critical materials and bioprocessing research. His prolific publication record and impactful research make him a strong candidate for the Best Researcher Award.

🌍 Professional Profile:

Orcid

Scopus

🏆 Suitability for the Best Researcher Award

Dr. Hoon Choi’s groundbreaking work in separation technologies and renewable energy innovation positions him as a leading researcher. His contributions to lithium extraction, polymer recycling, and bio-based chemical production have had a transformative impact on the field. Recognized with prestigious awards, including NREL’s President’s Award and multiple Key Contribution Awards, Dr. Choi’s research excellence is well-established. His leadership in DOE consortia and collaborations with top scientists underscore his influence. With a strong publication record in high-impact journals and patents in development, Dr. Choi’s work directly advances sustainable technologies. His dedication, expertise, and research impact make him an outstanding candidate for the Best Researcher Award.

🎓 Education

Dr. Hoon Choi holds a Ph.D. in Chemical Engineering from Purdue University (2018), where he studied under Prof. Nien-Hwa Linda Wang, focusing on advanced separation processes. He earned his M.S. in Chemical and Biomolecular Engineering from Yonsei University (2014) under Prof. Kangtaek Lee, specializing in bioprocessing and membrane separations. His B.S. in Chemical Engineering from Yonsei University (2012) provided a strong foundation in reaction engineering and process design. Throughout his academic career, Dr. Choi received numerous scholarships and honors, including the National Science and Engineering Full Scholarship and the Moojin Science and Technology Scholarship. His multidisciplinary education has equipped him with expertise in chromatography, polymer recycling, and sustainable chemical processes.

🏢 Work Experience

Dr. Hoon Choi is a Staff Scientist-Separation Engineer at NREL (2022–present), leading projects on lithium separation and polymer recycling. He previously served as a Postdoctoral Researcher at NREL (2020–2022), working with Dr. Eric M. Karp on bio-based chemical separations. Before that, he was an engineer at Samsung Electronics Foundry (2019), where he contributed to semiconductor materials processing. His research experience spans bioprocessing, chromatography, and sustainable materials. Dr. Choi’s leadership in DOE-funded projects and industry collaborations has advanced critical material recovery and energy-efficient separations. With extensive expertise in applied research, he continues to make significant contributions to renewable energy technologies and green chemistry innovations.

🏅 Awards and Honors

Dr. Hoon Choi has received numerous accolades recognizing his research excellence. He was honored with the President’s Award at NREL (2024) and Key Contribution Awards for five consecutive years (2020–2024). He received the Director’s Award at NREL (2021) for his outstanding contributions to bio-based chemical processes. Before joining NREL, he was named Employee of the Month at Samsung Electronics Foundry (2019). In academia, he won the Silver Prize in the 2018 Mobile World Scholar Challenge and received a Hanwha Travel Grant for the AIChE Annual Meeting (2018). Additionally, he was a recipient of the Moojin Science and Technology Scholarship and was consistently recognized on the Dean’s List at Yonsei University.

🔬 Research Focus

Dr. Hoon Choi’s research focuses on sustainable separation processes for renewable energy applications. His work includes developing chromatographic techniques for lithium extraction, designing efficient bioprocessing separations, and advancing polymer recycling through catalytic methods. He integrates machine learning with separation technologies to optimize material recovery. As part of the DOE Bioprocessing Separations Consortium, BOTTLE, and Critical Materials Collaborative, he contributes to national initiatives on circular economy solutions. His research has resulted in high-impact publications in journals such as Energy & Environmental Science and Nature Chemical Engineering. Through interdisciplinary collaborations, Dr. Choi is pioneering next-generation separation processes for a more sustainable and energy-efficient future.

📊 Publication Top Notes:

Choi, H., Alherech, M., Jang, J. H., Woodworth, S. P., Ramirez, K. J., Karp, E. M., & Beckham, G. T. (2024). Counter-current chromatography for lignin monomer–monomer and monomer–oligomer separations from reductive catalytic fractionation oil. Green Chemistry. https://doi.org/10.1039/D4GC00765D
Choi, H., Soland, N. E., Buss, B. L., Honeycutt, N. C., Tomashek, E. G., Haugen, S. J., Ramirez, K. J., Miscall, J., Tan, E. C. D., Smith, T. N., et al. (2022). Separation of bio-based glucaric acid via antisolvent crystallization and azeotropic drying. Green Chemistry. https://doi.org/10.1039/D1GC03984A
Choi, H., Soland, N. E., Moss, M. R., Liu, J., Prestangen, R. R., Katahira, R., Lee, S.-J., Thorson, M. R., Freeman, C. J., & Karp, E. M. (2022). The cell utilized partitioning model as a predictive tool for optimizing counter-current chromatography processes. Separation and Purification Technology, 120330. https://doi.org/10.1016/j.seppur.2021.120330
Choi, H., Harvey, D., Ding, Y., & Wang, N.-H.L. (2018). Constant-pattern design method for the separation of ternary mixtures of rare earth elements using ligand-assisted displacement chromatography. Journal of Chromatography A. https://doi.org/10.1016/j.chroma.2018.09.056
Choi, H., Harvey, D., Ding, Y., & Wang, N.-H.L. (2018). Key parameters controlling the development of constant-pattern isotachic trains of two rare earth elements in ligand-assisted displacement chromatography. Journal of Chromatography A. https://doi.org/10.1016/j.chroma.2018.05.057
Choi, H., Um, K., Im, M., & Lee, K. (2015). A simple method for nanostructure engineering of mesoporous zinc silicate particles. Chemistry of Materials. https://doi.org/10.1021/cm503768j
Ahn, H., Kim, T., Choi, H., Yoon, C., Um, K., Nam, J., Ahn, K.H., & Lee, K. (2014). Gelation of graphene oxides induced by different types of amino acids. Carbon. https://doi.org/10.1016/j.carbon.2014.01.033
Kang, T., Choi, H., Joo, S.-W., Lee, S.Y., Yoon, K.-A., & Lee, K. (2014). Peptide nucleic acid-mediated aggregation of reduced graphene oxides and label-free detection of DNA mutation. Journal of Physical Chemistry B. https://doi.org/10.1021/jp501820j

NTUMBA LOBO | Energy Conversion | Best Researcher Award

Posted on 27/03/202527/03/2025 by sciencefather

Ms. NTUMBA LOBO| Energy Conversion
| Best Researcher Award

PhD student at Nagoya Institute Of Technology, Japan

Ntumba Lobo is an accomplished researcher currently pursuing her PhD in Electrical and Mechanical Engineering at Nagoya Institute of Technology, Japan. With a strong background in semiconductor materials, nuclear physics, and hydrogen storage, she has conducted extensive research in carrier lifetime measurements and material characterization. Her academic journey spans institutions in Japan, Germany, Ethiopia, and DR Congo, demonstrating her global research exposure. She has participated in prestigious conferences, presenting her work on semiconductors and energy materials. As a research assistant at Nagoya Institute of Technology, she actively contributes to advancing semiconductor technology. Her dedication, technical expertise, and innovative contributions position her as a leading figure in materials science and applied physics.

🌍 Professional Profile:

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🏆 Suitability for the Best Researcher Award

Ntumba Lobo is a distinguished candidate for the Best Researcher Award, given her exceptional contributions to semiconductor materials and energy storage research. Her work has significantly advanced the understanding of carrier lifetime in semiconductors, benefiting applications in solar cells and optoelectronic devices. She has presented at renowned international conferences, authored impactful publications, and collaborated on interdisciplinary projects. Her research at Nagoya Institute of Technology and Friedrich-Alexander-Universität Erlangen-Nürnberg has led to innovations in semiconductor processing and characterization techniques. She possesses strong analytical skills, experimental expertise, and a commitment to scientific progress, making her a deserving recipient of this honor.

🎓 Education

Ntumba Lobo’s academic credentials reflect her expertise in materials science, physics, and engineering. She is currently pursuing a PhD in Electrical and Mechanical Engineering at Nagoya Institute of Technology, Japan (2025), focusing on semiconductor materials. She completed her Master’s in Science and Engineering at Shibaura Institute of Technology, Japan (2020), specializing in hydrogen storage materials. Her M.Sc. in Nuclear Physics from Addis Ababa University, Ethiopia (2016) involved research on fusion reactions in nuclear materials. She earned her B.Sc. (Honors) in Physics from the University of Kinshasa, DR Congo (2012), conducting research on non-destructive concrete characterization using ultrasound. Additionally, she was an exchange student at Friedrich-Alexander-Universität Erlangen-Nürnberg, Germany, where she worked on semiconductor crystallization techniques.

🏢 Work Experience

Ntumba Lobo has extensive experience in research, teaching, and industry internships. Since 2020, she has been a Research Assistant at Nagoya Institute of Technology, working on semiconductor material development. She has completed internships at OSM Group Co., Ltd. (Japan) and For Delight Co. Ltd. (Japan), where she gained practical expertise in materials engineering and electronics. Previously, she conducted nuclear physics research at Centre Régional de Recherche Nucléaire, Kinshasa. She also served as a teaching assistant at the University of Kinshasa, mentoring students in physics and engineering principles. Her experience includes scientific research, material characterization, and experimental physics, making her a well-rounded researcher in semiconductor technology and applied materials science.

🏅 Awards and Honors

Ntumba Lobo has received numerous recognitions for her contributions to semiconductor materials, nuclear physics, and hydrogen storage research. She has been invited to present at international conferences, including the Solid-State Devices and Materials Conference (Japan), MRS Tanzania Conference, and Metal-Hydrogen Systems Symposium (China). Her research on carrier lifetime measurements and recombination velocity in lithium tantalate has been widely cited. She has been awarded scholarships and research grants to support her studies at Nagoya Institute of Technology, Shibaura Institute of Technology, and Addis Ababa University. Her work in materials engineering, energy storage, and semiconductor characterization has earned her fellowships and international research funding, cementing her reputation as a leading researcher.

🔬 Research Focus

Ntumba Lobo’s research spans semiconductor materials, energy storage, and nuclear physics. She specializes in carrier lifetime analysis, surface recombination velocity, and semiconductor device optimization. Her contributions to metal halide perovskites, lithium tantalate, and hydrogen storage materials have direct applications in renewable energy and electronics. She has developed novel techniques to mitigate carrier trapping effects, enhancing the efficiency of solar cells and optoelectronic devices. Her interdisciplinary approach integrates solid-state physics, material science, and applied engineering to develop next-generation semiconductor devices and energy storage solutions. With a strong background in both experimental and computational methods, she continues to drive innovation in semiconductor characterization and sustainable energy materials.

📊 Publication Top Notes:

Lobo, N., Takasaki, A., Mineo, K., Klimkowicz, A., & Goc, K. (2019). Stability investigation of the γ-MgH₂ phase synthesized by high-energy ball milling. International Journal of Hydrogen Energy, 44(55), 29179-29188.
Kimilita, P. D., Hayashi, M., Nkomba, H. M., Fukunishi, H., Lobo, N., Mizuno, T., … (2023). Stable quasi-solid-state zinc-ion battery based on the hydrated vanadium oxide cathode and polyacrylamide-organohydrogel electrolyte. Electrochimica Acta, 462, 142702.
Lobo, N., Kawane, T., Matt, G. J., Osvet, A., Shrestha, S., Ievgen, L., Brabec, C. J., … (2022). Trapping effects and surface/interface recombination of carrier recombination in single-or poly-crystalline metal halide perovskites. Japanese Journal of Applied Physics, 61(12), 125503.
Lobo, N. T. (2016). Study of ²⁰Ne induced reaction in ⁵⁹Co: Incomplete and complete fusion. Addis Ababa University.
Lobo, N., Klimkowicz, A., & Takasaki, A. (2020). Effect of TiO₂ + Nb₂O₅ + TiH₂ catalysts on hydrogen storage properties of magnesium hydride. MRS Advances, 1-11.
Lobo, E. N. (2010). La super symétrie en physique quantique. Université de Kinshasa.
Lobo, N., Matt, G. J., Osvet, A., Shrestha, S., Kanak, A., Fochuk, P., Brabec, C. J., … (2024). Mitigation of carrier trapping effects on carrier lifetime measurements with continuous-wave laser illumination for Pb-based metal halide perovskite materials. Journal of Applied Physics, 135(7).

Le-Xi Zhang | Materials Science | Best Researcher Award

Posted on 26/03/202526/03/2025 by sciencefather

Assoc. Prof. Dr. Le-Xi Zhang | Materials Science
| Best Researcher Award

University teacher at Tianjin University of Technology, China

Dr. Le-Xi Zhang is an esteemed scientist specializing in gas and humidity sensing materials, heterogeneous catalysts, and oxide nanostructures. Born on March 18, 1982, in China, he is currently an Associate Professor at Tianjin University of Technology. With a Ph.D. in Material Science from the Institute of Coal Chemistry, Chinese Academy of Sciences, he has made significant contributions to nanomaterials and functional complexes, including MOFs. Dr. Zhang has successfully led multiple national and provincial research projects and has served as a reviewer for over 45 SCI journals. His work has been widely recognized in high-impact journals, and he holds memberships in esteemed scientific societies, including the Chinese Chemical Society.

🌍 Professional Profile:

Orcid

🏆 Suitability for the Best Researcher Award

Dr. Le-Xi Zhang’s distinguished contributions to materials science, particularly in gas sensing and oxide nanostructures, make him a strong candidate for prestigious awards. His pioneering research in perovskites and MOFs has advanced sensing technology and heterogeneous catalysis, impacting industrial and environmental applications. As the principal investigator for several high-profile national and provincial research projects, his leadership in academia is commendable. Additionally, his extensive publication record, with numerous first/corresponding author papers in high-impact journals, reflects his influence in the scientific community. His role as a reviewer for 45+ SCI journals and editorial board memberships further solidify his academic excellence. These achievements highlight his suitability for recognition in Best Researcher Award.
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🎓 Education

Dr. Le-Xi Zhang pursued his undergraduate studies at Qufu Normal University, earning a Bachelor of Science degree in Chemistry (2001-2005). His passion for materials science led him to the Institute of Coal Chemistry, Chinese Academy of Sciences, where he completed his Ph.D. in Material Science (2005-2012). During his doctoral studies, he gained expertise in nanomaterials, catalysis, and gas-sensing technologies. His research focused on advanced oxide nanostructures, functional materials, and their applications in sensing and energy storage. This strong academic foundation has enabled him to contribute significantly to scientific advancements in his field. His interdisciplinary education has played a crucial role in shaping his expertise and leadership in materials science research.

🏢 Work Experience

Dr. Le-Xi Zhang has been a dedicated educator and researcher at Tianjin University of Technology since 2012. He started as a Lecturer (2012-2018) before being promoted to Associate Professor (2018-present). Over the years, he has supervised research projects focused on gas sensors, perovskite materials, and MOFs. His contributions extend beyond research, as he actively mentors students and collaborates with global research institutions. Additionally, he is a reviewer for over 45 SCI journals and serves on the editorial boards of Rare Metals and Tungsten. His professional affiliations, including membership in the Chinese Chemical Society, further reflect his active engagement in the scientific community. His experience underscores his expertise in materials science and academia.

🏅 Awards and Honors

Dr. Le-Xi Zhang has received multiple honors for his outstanding contributions to materials science. He was recognized as one of the Leading Innovative Talents under the “Longcheng Talent Plan” in Changzhou, Jiangsu Province, for his work on high-strength ZnO-PSF composite nanofiltration membranes. He also secured funding through the prestigious Tianjin 131 Innovative Talent Training Project (Third Level), which supported his research on oxide hierarchical structures. His research projects have been funded by esteemed institutions, including the National Natural Science Foundation of China and the Tianjin Natural Science Council. With a strong track record of impactful research, his numerous accolades highlight his excellence in material chemistry and sensor technology innovation.

🔬 Research Focus

Dr. Le-Xi Zhang’s research centers on gas and humidity sensing materials, heterogeneous catalysts, and oxide nanostructures, including perovskites. He also explores functional complexes such as MOFs, with applications in energy storage, catalysis, and environmental monitoring. His work emphasizes designing novel nanostructured materials with enhanced sensing performance, focusing on defect engineering and hierarchical structures. He has led multiple research projects, investigating carbon dot-doped metal oxides and ZnO@MOF photocatalysis. His innovative approaches to gas-sensing materials have led to advancements in sensor sensitivity, selectivity, and stability. By integrating nanotechnology with material science, his research continues to contribute to the development of next-generation sensing devices for industrial and healthcare applications.

📊 Publication Top Notes:

Guo, C.-C., Wang, C.-J., Zhang, L.-X., Qiu, Q.-D., Zhu, M.-Y., Yin, J., & Bie, L.-J. (2024). Halide-dependent humidity sensing of Cs₂SnX₆ (X = Cl, Br, I) perovskites for real-time human physiological moisture detection. Journal of Materials Chemistry C.
Zhu, S.-G., Cui, Y., Zhang, L.-X., Shao, H., Yin, J., & Bie, L.-J. (2024). Cation-oxygen dual-defective ACu₃Ti₄O₁₂ (A = Sr, Ba) perovskites enable high-performance humidity sensors for human-body-related moisture monitoring. Ceramics International.
Huo, Z.-L., Qiao, J.-Y., Zhang, L.-X., Yue, Y.-W., Qiu, Q.-D., Hou, Z.-J., Yin, J., & Bie, L.-J. (2024). High-performance flexible humidity sensors based on MCl (M = Li, Na, K) doped PVP/PVDF self-supporting films for boosted real-time noncontact moisture monitoring. ACS Applied Polymer Materials.
Yin, Y.-Y., Zhang, L.-X., An, X.-Y., Wang, C.-J., Zhang, Q.-Q., & Bie, L.-J. (2023). Lead-free defective halide perovskites Cs₂SnX₆ (X = Cl, Br, I) for highly robust formaldehyde sensing at room temperature. Scripta Materialia. https://doi.org/10.1016/j.scriptamat.2023.115541
Liu, Y.-F., Li, C.-T., Zhang, L.-X., Chong, M.-X., & Bie, L.-J. (2023). An all-inorganic lead-free halide perovskite Cs₂InCl₅(H₂O) with heterogeneous oxygen for noncontact finger humidity detection. Scripta Materialia. /j.scriptamat.2023.115338
Dong, H., Zhang, L.-X., Xu, H., Yin, Y.-Y., Zhao, X.-B., & Bie, L.-J. (2023). H-bonding interactions enable a 3D pillared cobalt(II) coordination polymer for touchless finger moisture detection. Tungsten.

Vasileios Manouras | RF IC Design | Best Researcher Award

Posted on 26/03/2025 by sciencefather

Mr. Vasileios Manouras| RF IC Design
| Best Researcher Award

Mr. Vasileios Manouras , Nationa Technical University of Athens, Greece

Vasileios Manouras is a senior Analog/RF IC design engineer and a PhD candidate in Electrical and Computer Engineering at the National Technical University of Athens, Greece. His expertise lies in designing RF and mm-wave power amplifiers, transceivers, and high-frequency circuits. He has contributed to cutting-edge research in silicon technologies, working on D-Band and G-Band transceivers, mm-wave PAs, LNAs, and frequency multipliers. His industry experience includes an internship at Infineon Technologies AG, where he designed an Inverse Class F switch-mode power amplifier. Recognized for his contributions, he was awarded the prestigious “IPCEI on Microelectronics Scholarship” by Infineon. His work significantly impacts wireless and wireline data links, making him a leading researcher in high-frequency IC design.

🌍 Professional Profile:

Orcid

Scopus

🏆 Suitability for the Best Researcher Award

Vasileios Manouras is an exceptional researcher in RF and mm-wave integrated circuits, demonstrating innovation and technical excellence. His PhD research on sub-THz transceivers addresses the increasing demand for high-speed wireless communication, positioning him at the forefront of next-generation IC design. His expertise spans circuit design, PCB development, and system integration, contributing to projects in D-Band (110-170 GHz) and G-Band (175-225 GHz). He has successfully collaborated with academia and industry, receiving the prestigious “IPCEI on Microelectronics Scholarship” from Infineon Technologies. His outstanding contributions, technical skills, and dedication to advancing high-frequency electronics make him a strong candidate for the Best Researcher Award.

🎓 Education

Vasileios Manouras holds a Diploma in Electrical and Computer Engineering from the National Technical University of Athens (NTUA), specializing in Microelectronics. His academic excellence and research aptitude have led him to pursue a PhD in Electrical and Computer Engineering at NTUA, focusing on the design of integrated transceivers for sub-THz applications. Throughout his studies, he has acquired extensive knowledge in analog, RF, and mm-wave circuit design, as well as experience with cutting-edge simulation and measurement tools. His academic journey has been enriched by hands-on experience with silicon-based IC design and high-frequency PCB development, equipping him with the expertise to drive innovation in RF and mm-wave communication systems.

🏢 Work Experience

Vasileios Manouras has extensive experience in RF and mm-wave IC design. As a PhD candidate at NTUA since 2020, he has contributed to the development of high-frequency transceivers, including D-Band and G-Band systems, 300-GHz transmitters, power amplifiers, LNAs, and frequency multipliers. His research integrates advanced silicon technologies, contributing to next-generation wireless communication. During his internship at Infineon Technologies AG (2019-2020), he designed an Inverse Class F switch-mode power amplifier operating at 28 GHz using BiCMOS 0.13µm technology. His expertise extends to PCB design for high-frequency applications, signal integrity analysis, and RF characterization, making him a key contributor to state-of-the-art IC development for high-speed data transmission.

🏅 Awards and Honors

Vasileios Manouras has received significant recognition for his research excellence in RF and mm-wave IC design. He was awarded the prestigious “IPCEI on Microelectronics Scholarship” by Infineon Technologies AG, acknowledging his outstanding contributions to microelectronics research. His academic and professional achievements in designing high-frequency circuits have been instrumental in advancing communication technologies. His work in silicon-based RF transceivers and power amplifiers has been recognized in both academia and industry, earning him opportunities to collaborate on cutting-edge projects. His dedication to innovation and technical excellence has positioned him as a distinguished researcher, making him a deserving candidate for honors and awards in the field of analog/RF IC design.

🔬 Research Focus

Vasileios Manouras specializes in RF and mm-wave IC design, focusing on developing high-frequency transceivers for sub-THz applications. His research explores the design of power-efficient, high-performance RF circuits, including power amplifiers (PAs), low-noise amplifiers (LNAs), mixers, and frequency multipliers. He has worked on D-Band (110-170 GHz) and G-Band (175-225 GHz) transceivers, as well as a 300-GHz transmitter front-end. His work addresses the growing demand for high-data-rate wireless and wireline communication, optimizing circuit architectures for next-generation communication standards. His expertise in silicon-based technologies, PCB design, and RF measurements contributes to advancements in 5G, 6G, and beyond, ensuring efficient and scalable solutions for future telecommunication networks.

📊 Publication Top Notes:

Manouras, V., & Papananos, Y. (2025). A 28-GHz Highly Efficient Class-J SiGe Power Amplifier with Pi-Type Load Network Integration. VLSI Journal. DOI: 10.1016/j.vlsi.2025.102415
Korres, A., Manouras, V., & Papananos, Y. (2024). A 300-GHz Broadband On-Chip Antenna Integrated With a Transmitter Front-End. 2024 International Conference on Electromagnetics in Advanced Applications (ICEAA). DOI: 10.1109/iceaa61917.2024.10701621
Manouras, V., & Papananos, Y. (2024). A G-Band ASK Transceiver for Short-Range Communications in 130 nm SiGe BiCMOS. 2024 19th Conference on Ph.D. Research in Microelectronics and Electronics (PRIME). DOI: 10.1109/prime61930.2024.10559691
Manouras, V., & Papananos, I. (2023). A Ka-Band SiGe BiCMOS Quasi-F−1 Power Amplifier Using a Parasitic Capacitance Cancellation Technique. Journal of Low Power Electronics and Applications, 13(2), 23. DOI: 10.3390/jlpea13020023
Manouras, V., & Papananos, I. (2022). A Ka-Band Quasi-F⁻¹ Power Amplifier in a 130 nm SiGe BiCMOS Technology. 2022 Panhellenic Conference on Electronics & Telecommunications (PACET).
Soumpasakou, F., Manouras, V., & Papananos, I. (2022). Design and Implementation of a D-Band I/Q Modulator in a 130 nm SiGe BiCMOS Technology. 2022 Panhellenic Conference on Electronics & Telecommunications (PACET).

Khalifa Aliyu Ibrahim | Artificial Intelligence | Best Researcher Award

Posted on 21/03/202521/03/2025 by sciencefather

Mr. Khalifa Aliyu Ibrahim |Power Electronics Design |Best Researcher Award

PhD Researcher at Cranfield University, United Kingdom

Mr. Khalifa Aliyu Ibrahim is a researcher at Cranfield University, United Kingdom, specializing in energy systems, power electronics, and thermal management. He holds a Master of Science in Energy Systems and Thermal Processes (with Distinction) and a Master’s by Research in Energy and Power from Cranfield University. In 2016, he graduated as the only first-class Bachelor of Science in Physics from Kaduna State University, Nigeria. His research focuses on clean hybrid energy systems and thermal management, aiming to drive innovation towards a sustainable future. His academic pursuits have resulted in publications in esteemed journals and presentations at notable conferences. Mr. Ibrahim has been recognized with several awards, including the Petroleum Technology Development Fund Scholarship (2021) worth £31,000 and the Merit-based Foreign Scholarship from the Kaduna State Scholarship and Loan Board, Nigeria (2020) worth £27,000.

Publication Profile

Scopus

Google scholar

Orcid

Education :

PhD in AI-Driven Design of High-Frequency Power Electronics (2023 – Present) Cranfield University, UK Research: AI-driven power electronics design Publications: Revolutionizing Power Electronics Design through Large Language Models: Applications and Future Directions (2025, Computers and Electrical Engineering) . Floating Solar Wireless Power Transfer System for Electric Ships: Design and Laboratory Tests (2025, Energy Conversion and Management) Master’s by Research (MRes) in Energy and Power (2022 – 2023)Cranfield University, UK Research: Concentrated Photovoltaic Cooling Design Publication: Cooling of Concentrated Photovoltaic Cells—A Review and the Perspective of Pulsating Flow Cooling (2023, Energies 16, no. 6: 2842)= Memberships: Graduate Member IEEE, Member IEEE Power & Energy Society (PES), IEEE Young Professionals . MSc in Energy Systems & Thermal Processes (2020 – 2021)Cranfield University, UK Graduated with Distinction (Weighted Average: 72.30%) Thesis: Multi-junction Concentrated Photovoltaic (CPV) of Hydrogen Generation System Publication: High-Performance Green Hydrogen Generation System (2021, IEEE Power MEMS Conference, UK) Associate Member of the Energy Institute UKBSc in Physics (2013 – 2016)Kaduna State University, Nigeria First-class graduate with a CGPA of 4.56/5.00 Publications: Azimuthal Square-Array Direct-Current Resistivity Method to Determine Geological Fractures (2019, Journal of Nigerian Association of Mathematical Physics) The Effect of Solar Irradiation on Solar Cells (2019, Science World Journal Vol 14, No 1)Class Representative and Student Tutorial Coordinator

Experience :

Research Assistant (Aug 2022 – Present) Cranfield University, UK Built and tested DC/DC architecture for a small-scale green hydrogen plant, leading to partnerships with Hywaves Taught and supervised MSc students in laboratory activities and group projects Provided support in research design, testing, and analysis Represented Cranfield University in UK Innovate projects Lecturer (2021 – 2022) Kaduna State University, Nigeria Taught physics courses and supervised undergraduate and PGD students Conducted examination invigilation and marking Lecturer (2020 – 2021) Nuhu Bamalli Polytechnic, Nigeria Taught theoretical and experimental physics to over 400 students Developed a student attendance template adopted by the IJMB department Supported colleagues in adopting virtual teaching tools Teaching & Laboratory Assistant (2017 – 2018) Umaru Musa Yar’adua University, Nigeria Conducted physics experiments for first-year students Coordinated community projects and volunteered in anti-corruption initiatives Intern, Power Plant & Utility Department (2016) Kaduna Refining and Petrochemical Company, Nigeria Monitored power plant operations under the supervision of the chief operator Enumerator (2012 – 2013) Tripple Seventh Nigeria Limited, Nigeria Conducted GPS mapping and data analysis for asset management projects

Research Focus :

AI-driven design of power electronicsGreen hydrogen generation systemsConcentrated photovoltaic cooling systemsThermal and energy management

Skills:

AI applications in energy and power electronicsPower systems & thermal managementResearch & academic writingMATLAB, COMSOL, Python, LabVIEW, Bitrix24Leadership & project management

Publication :

Nwalike, E.D., Ibrahim, K.A., Crawley, F., Qin, Q., Luk, P., & Luo, Z. (2023). Harnessing energy for wearables: A review of radio frequency energy harvesting technologies. Energies, 16(15), 5711.
Ibrahim, K.A., Gyuk, P.M., & Aliyu, S. (2019). The effect of solar irradiation on solar cells. Science World Journal, 14(1), 20-22.
Ibrahim, K.A., Luk, P., & Luo, Z. (2023). Cooling of Concentrated Photovoltaic Cells—A review and the perspective of Pulsating Flow Cooling. Energies, 16(6), 2842.
Ibrahim, K.A., Kim, M., Kinuthia, D., Hussaini, Z.A., Crawley, F., & Luo, Z. (2021). High performance green hydrogen generation system. 2021 IEEE 20th International Conference on Micro and Nanotechnology for …
Kaheel, S., Ibrahim, K.A., Fallatah, G., Lakshminarayanan, V., Luk, P., & Luo, Z. (2023). Advancing hydrogen: A closer look at implementation factors, current status and future potential. Energies, 16(24), 7975.
Magaji, I., Ibrahim, K.A., & Ahmed, I. (2019). Survey and assessment of radiation levels associated with mobile and wireless telecommunication mast in residential and office areas within Kaduna Metropolis. FUDMA Journal of Sciences, 3(3), 341-347.
Kaheel, S., Fallatah, G., Luk, P., Ibrahim, K.A., & Luo, Z. (2025). Decision support system for sustainable hydrogen production: Case study of Saudi Arabia. Energy for Sustainable Development, 84, 101603.
Mansur, H., Ibrahim, K.A., & Halidu, A.A. (2022). Measurements of pour points, flash points, water contents and viscosity of some selected automobile oils used as lubricants in Nigeria. Science World Journal, 17(1), 168-170.
Ibrahim, K.A., Luk, P., Luo, Z., Ng, S.Y., & Harrison, L. (2024). Revolutionizing Power Electronics Design Through Large Language Models: Applications and Future Directions. Available at SSRN 4990854.
Ibrahim, K.A., Le Maréchal, T., Luk, P., Qin, Q., Huang, L., Xie, Y., Verdin, P., & Luo, Z. (2025). Floating solar wireless power transfer system for electric ships: Design and laboratory tests. Energy Conversion and Management, 332, 119738.

Conclusion

Khalifa Aliyu Ibrahim is a highly suitable candidate for the Best Researcher Award. His research contributions in AI-driven power electronics, renewable energy, and hydrogen systems are impactful and relevant to modern energy challenges. Strengthening international collaborations, securing research grants, and patenting innovations could further solidify his standing as a leading researcher.

Azin Izadi |Computer Engineering | Best Researcher Award

Posted on 20/03/202520/03/2025 by sciencefather

Ms. Azin Izadi |Computer Engineering
|Best Researcher Award

Researcher at Shahid Bahonar University of Kerman, Iran

Master of Science in Computer Engineering (2019–2022)Shahid Bahonar University of Kerman, Iran Specialization: Computer System Architecture Overall GPA: 4.00/4.00 (17.88/20)Thesis: Design of an Approximate Computing Unit to Improve the Power Consumption of FPGA-Based Designs Thesis GPA: 4.00/4.00 (17.5/18)Supervisor: Professor Behnam Ghavami Bachelor of Science in Computer Engineering (2012–2017)Shahid Bahonar University of Kerman, Iran Specialization: Computer Hardware Last two years GPA: 3.10/4.00Thesis: Using the Raspberry Pi Microcomputer for Remote Environment Control and Observation Thesis GPA: 4.00/4.00 (19.5/20)Supervisor: Professor Azadeh Alsadat Emrani Zarandi

Publication Profile

Scopus

Education :

Experience :

Teaching Assistant Shahid Bahonar University of Kerman, Iran Digital Electronics (October 2022 – July 2024)Computer-Aided Design of Digital Systems (October 2024 – Present)Supervisor: Professor Vahid Jamshidi Research Assistant Shahid Bahonar University of Kerman, Iran (January 2023 – Present)Researching approximate computing and low-power design of arithmetic unitsSupervisor: Professor Vahid Jamshidi Lecturer, Computer Engineering Technical and Vocational University of Kerman, Iran Network Security (October 2023 – July 2024)Web Security (October 2023 – July 2024)Computer Architecture (January 2025 – Present)Private Tutor Shahid Bahonar University of Kerman, Iran (November 2023 – July 2024)Logic Circuits Computer Architecture

Research Focus :

Approximate ComputingLow-Power Design of Arithmetic UnitsHigh-Speed Error-Resilient Computing Architectures

Skills:

Hardware Design: Verilog, VHDL Simulation Tools: Synopsys Design Compiler, Xilinx Vivado Toolset, Model Sim Programming: Python Document Preparation: LaTeX Version Control: Git

Awards:

🏆 Top Ranked Student in Master’s Program – Department of Computer Engineering, College of Engineering, Shahid Bahonar University of Kerman (2022)

Publication :

Azin Izadi, Vahid Jamshidi. “LSHIM: Low-power and Small-area Inexact Multiplier for High-speed Error-resilient Applications.” IEEE Journal on Emerging and Selected Topics in Circuits and Systems (2024). (Published)

Azin Izadi, Vahid Jamshidi. “LHTAM: Low-power and high-speed approximate multiplier for tiny inexact computing systems.” Computers and Electrical Engineering (2024). (Published)

Azin Izadi, Vahid Jamshidi. “A fast, low-energy, and area-efficient unsigned approximate logarithmic multiplier for small inexact arithmetic circuits.” IEEE Transactions on Sustainable Computing (2024). (Revised)

Azin Izadi, Vahid Jamshidi. “High-performance approximate adder for arithmetic circuits.” (2025). (In Preparation)

Conclusion

Based on Azin Izadi’s strong research background, academic achievements, and teaching contributions, Azin is a suitable and deserving candidate for the Best Researcher Award. Continued efforts in real-world implementation, research networking, and interdisciplinary projects would further solidify Azin’s position as a leading researcher in the field.