Guoxing Li | Energy | Best Researcher Award

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Dr. Guoxing Li | Energy | Best Researcher Award

Chang’an University, China

Guoxing Li is an emerging researcher specializing in sustainable energy systems, with particular expertise in hydrogen production, combustion chemistry, and supercritical water processes. After obtaining his PhD from Xi’an Jiaotong University in July 2022, he began his academic career as a lecturer at the School of Energy and Electrical Engineering, Chang’an University. His research has made significant contributions to the understanding of reaction kinetics and combustion behavior in complex energy systems, focusing on both theoretical and experimental approaches. Guoxing Li has published extensively in high-impact international journals and has collaborated with leading scholars in the field. His work stands out for its combination of computational modeling, kinetic analysis, and innovative designs for energy conversion processes, which offer solutions for cleaner and more efficient energy production. His research is highly relevant in the global transition towards sustainable and low-carbon energy systems. Guoxing Li’s scientific rigor, growing leadership, and impactful research output position him as a rising talent in the energy research community. His continuous efforts are paving the way for advancements in hydrogen utilization and supercritical water technologies, which hold great promise for addressing current energy and environmental challenges.

Professional Profile

Education

Guoxing Li earned his PhD degree from Xi’an Jiaotong University, one of China’s premier engineering institutions, in July 2022. His doctoral studies focused on advanced combustion chemistry, reaction kinetics, and the utilization of supercritical water in energy applications. Throughout his academic journey, he developed a strong foundation in chemical engineering, thermodynamics, and computational modeling, which became the backbone of his research expertise. During his time at Xi’an Jiaotong University, Guoxing Li worked closely with renowned faculty and engaged in collaborative projects that shaped his deep understanding of energy systems. His education emphasized both theoretical learning and practical laboratory research, allowing him to master a range of scientific tools and techniques related to sustainable energy. His rigorous training has equipped him to design, analyze, and optimize complex chemical reactions for cleaner energy production. The multidisciplinary nature of his doctoral work has enabled him to address real-world energy challenges from both a chemical and engineering perspective. Guoxing Li’s academic background continues to influence his current research and teaching, fostering a blend of scientific inquiry and practical application that benefits both his students and the broader research community.

Professional Experience

Guoxing Li began his professional career as a lecturer at the School of Energy and Electrical Engineering, Chang’an University, shortly after completing his doctoral studies in 2022. In this role, he has been actively involved in both teaching and research, contributing to the academic growth of students while advancing his own investigations into sustainable energy systems. His teaching responsibilities include subjects related to energy conversion, combustion chemistry, and environmental protection technologies, where he integrates his research findings into the classroom. Professionally, Guoxing Li has made significant contributions to the development of supercritical water oxidation processes, kinetic modeling of hydrogen combustion, and innovative solutions for chemical reaction systems. His career is marked by strong collaborations with international experts and consistent publication in top-tier journals, which demonstrate his ability to produce high-quality, impactful research. His professional journey is characterized by steady growth, scientific integrity, and a focus on addressing energy-related environmental challenges. As a young academic, he is building a reputation for bridging the gap between theoretical modeling and practical energy solutions, contributing not only to academia but also to the potential advancement of industrial applications in the field of sustainable energy.

Research Interests

Guoxing Li’s research interests are centered on sustainable energy systems, with a particular focus on hydrogen production, combustion chemistry, and the application of supercritical water technologies. He is passionate about advancing the understanding of oxidation kinetics in hydrogen and hydrocarbon-based fuels under supercritical conditions, which is essential for developing efficient and clean energy conversion processes. His work often integrates computational methods, such as ReaxFF molecular dynamics simulations and detailed kinetic modeling, to explore reaction mechanisms at a fundamental level. Guoxing Li also investigates hydrothermal flames, water gas shift reactions, and the oxidative degradation of pollutants in supercritical water, contributing to both energy generation and environmental protection. His interdisciplinary approach allows him to address complex energy challenges from both chemical and engineering perspectives. By focusing on clean combustion and innovative reactor designs, his research aims to reduce greenhouse gas emissions and promote sustainable hydrogen utilization. He is particularly interested in the future applications of supercritical water reactors for waste treatment and energy recovery, as well as the role of hydrogen as a key player in decarbonizing the energy sector. Guoxing Li’s forward-thinking research is aligned with global energy transition goals and climate action priorities.

Research Skills

Guoxing Li possesses a comprehensive set of research skills that enable him to tackle complex energy and combustion-related challenges effectively. His expertise in kinetic modeling is one of his core strengths, particularly in developing detailed reaction mechanisms for hydrogen oxidation and hydrocarbon combustion under supercritical water conditions. He is proficient in advanced computational simulation tools, including ReaxFF molecular dynamics and Density Functional Theory (DFT) methods, which he uses to predict and analyze chemical reaction behaviors at both macroscopic and molecular levels. Additionally, Guoxing Li has extensive hands-on experience in experimental design, reactor operation, and supercritical water processing, allowing him to validate his computational models with laboratory results. He is skilled in data analysis, thermodynamic calculations, and chemical kinetics, and adept at using specialized software for energy system modeling. His ability to integrate simulation with practical experimentation distinguishes his work and enhances its scientific credibility. Guoxing Li also demonstrates strong capabilities in scientific writing, project management, and interdisciplinary collaboration, which contribute to his growing impact in the research community. These skills collectively support his goal of developing innovative, efficient, and environmentally friendly energy solutions.

Awards and Honors

Although specific awards and honors for Guoxing Li have not been explicitly listed, his publication record and collaborative work with internationally recognized researchers reflect a high level of academic recognition. His consistent contributions to top-tier journals such as Energy & Fuels, Fuel, Process Safety and Environmental Protection, Journal of Cleaner Production, and Renewable and Sustainable Energy Reviews demonstrate his research excellence and growing influence in the field of sustainable energy. His involvement in cutting-edge research topics such as hydrogen combustion, supercritical water technologies, and clean energy conversion processes positions him as a rising talent with strong prospects for future academic and professional accolades. His articles often address innovative solutions to energy and environmental problems, which likely contribute to positive peer recognition and opportunities for further research collaborations. As Guoxing Li’s career progresses, his current trajectory suggests he will be a strong candidate for future research awards, fellowships, and leadership roles in energy-focused academic societies. His potential for receiving awards lies in his ability to translate complex chemical processes into practical, impactful energy solutions, advancing both scientific knowledge and environmental sustainability.

Conclusion

Guoxing Li is an accomplished early-career researcher whose contributions to the field of sustainable energy are both timely and impactful. His work on hydrogen combustion, kinetic modeling, and supercritical water oxidation addresses some of the most critical challenges in clean energy development and environmental protection. Guoxing Li’s ability to combine computational simulations with experimental validation showcases his scientific rigor and versatility. His educational background, professional growth, and consistently strong research output indicate a deep commitment to advancing knowledge in sustainable energy systems. Although there is room to expand his interdisciplinary collaborations and industrial applications, his current trajectory positions him as a future leader in the field. His research is not only academically significant but also holds the potential for real-world impact in the global transition to low-carbon and hydrogen-based energy solutions. Guoxing Li’s achievements thus far make him a highly suitable candidate for further recognition, including prestigious research awards. His continued dedication to innovation, scientific integrity, and energy sustainability will undoubtedly contribute to his long-term success and influence in both the academic and industrial energy sectors.

Publications Top Notes

1. Recent Progress and Prospects of Hydrogen Combustion Chemistry in the Gas Phase

  • Type: Review

2. Recent Progress and Prospects of Hydrothermal Flames for Efficient and Clean Energy Conversion

  • Type: Review

Li Yan | Energy | Best Researcher Award

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Dr. Li Yan | Energy | Best Researcher Award

Assistant Researcher from Beijing University of Technology, China

Dr. Yan Li is an accomplished researcher in the field of energy materials, currently serving as an Assistant Researcher at Beijing University of Technology. With a strong academic background and postdoctoral training at one of China’s most prestigious universities, he has developed expertise in designing and synthesizing advanced cathode materials for both lithium-ion and sodium-ion batteries. His work focuses on improving battery performance, safety, and understanding degradation mechanisms through cutting-edge in situ and operando transmission electron microscopy (TEM) techniques. Dr. Li’s contribution lies not only in material synthesis but also in developing novel characterization methods to address the fundamental scientific challenges related to energy storage systems. His multidisciplinary approach combines materials science, electrochemistry, and electron microscopy to explore next-generation battery technologies. Dr. Li is emerging as a strong presence in the research community, known for his technical depth, innovative thinking, and commitment to solving real-world energy problems. His current research aims to enhance the reliability and lifespan of battery systems, which are crucial for applications in electric vehicles, portable electronics, and grid storage. Dr. Yan Li continues to make substantial contributions to the scientific community and has the potential to influence global advancements in sustainable energy technologies.

Professional Profile

Education

Dr. Yan Li obtained his Doctor of Philosophy (Ph.D.) degree in 2016 from Nanjing Tech University, Nanjing, China, where he specialized in the field of materials science and engineering with a particular emphasis on electrochemical energy storage systems. His academic journey began with a solid foundation in chemistry and material science, which later evolved into specialized research in battery technologies. During his Ph.D. studies, Dr. Li gained rigorous training in materials synthesis, electrochemical analysis, and structural characterization, setting the groundwork for his future innovations in energy storage. His doctoral thesis likely explored aspects of material behavior under electrochemical conditions, especially within battery systems. His academic excellence and research potential were evident early on, leading to postdoctoral opportunities at leading institutions. Dr. Li’s commitment to academic rigor and continuous learning has enabled him to stay at the forefront of energy research. The comprehensive nature of his education has played a critical role in shaping his ability to address complex challenges in the development of high-performance and safe battery materials, making him a valuable asset in both academic and industrial research environments.

Professional Experience

Dr. Yan Li is currently employed as an Assistant Researcher at Beijing University of Technology, where he is actively involved in energy materials research. Before his current role, he worked as a Postdoctoral Researcher in the Automotive Department at Tsinghua University, one of China’s top-tier institutions. During his postdoctoral tenure, he contributed to projects that explored the performance and safety of batteries in vehicular applications, particularly electric vehicles. His responsibilities included not only experimental research but also data analysis, project planning, and collaboration with cross-disciplinary teams. These roles provided him with invaluable experience in applying academic research to real-world industrial needs. At Beijing University of Technology, Dr. Li continues to expand his research on lithium-ion and sodium-ion battery technologies. His professional work integrates both fundamental research and applied science, offering insights into battery degradation, safety, and longevity. This professional journey underscores his ability to contribute to high-impact research projects while also nurturing the skills required for academic leadership and innovation. Through these experiences, Dr. Li has built a strong foundation for further academic achievements and collaborative ventures in the global energy research community.

Research Interest

Dr. Yan Li’s research interests lie at the intersection of materials science, electrochemistry, and energy storage systems. He is particularly focused on the design, synthesis, and optimization of cathode materials for lithium-ion and sodium-ion batteries. These energy storage technologies are pivotal for the future of electric vehicles, renewable energy integration, and portable electronic devices. His research explores new material chemistries that offer higher energy density, better thermal stability, and longer cycle life. One of the most distinctive aspects of Dr. Li’s work is his application of in situ and operando transmission electron microscopy (TEM) to study the real-time structural and chemical changes occurring in battery materials during operation. This technique allows for the direct observation of degradation mechanisms, providing critical insights that can lead to safer and more durable battery systems. Additionally, Dr. Li is interested in exploring environmentally friendly and cost-effective alternatives to conventional battery materials. His multidisciplinary approach and continuous pursuit of innovation highlight his dedication to solving pressing energy challenges and advancing battery technology for broader societal impact.

Research Skills

Dr. Yan Li possesses a diverse and robust set of research skills that make him a leading expert in the field of energy storage materials. His core competencies include advanced materials synthesis, especially in the development of cathode materials for lithium-ion and sodium-ion batteries. He is proficient in a wide array of characterization techniques, with specialized expertise in in situ and operando transmission electron microscopy (TEM), which allows him to analyze material transformations and degradation processes in real-time during battery operation. His skills also encompass electrochemical testing, such as cyclic voltammetry, galvanostatic charge/discharge measurements, and impedance spectroscopy, which are essential for evaluating the performance of battery materials. Dr. Li has hands-on experience with battery fabrication techniques, including electrode preparation, coin-cell assembly, and safety testing protocols. Additionally, he is skilled in data analysis, scientific writing, and project management, making him capable of leading and executing comprehensive research projects. His ability to integrate theoretical knowledge with experimental practice enables him to develop innovative solutions in the realm of energy storage, ensuring both academic excellence and industrial relevance.

Awards and Honors

While specific awards and honors received by Dr. Yan Li have not been publicly listed, his academic and professional trajectory suggests a strong record of recognition and merit. Being selected for a postdoctoral position at Tsinghua University, a globally recognized institution, is itself an indicator of high academic standing and research potential. His current appointment as an Assistant Researcher at Beijing University of Technology also reflects his capabilities and the trust placed in him by academic peers and senior faculty. It is likely that he has received institutional and project-based acknowledgments for his work on battery materials and electrochemical analysis. Furthermore, Dr. Li’s contributions to cutting-edge topics such as in situ characterization and energy storage mechanisms may have positioned him to receive future recognitions in the form of research grants, invitations to conferences, and publication awards. As his research output grows and gains visibility, he is well-positioned to earn national and international honors that further validate his contributions to the field of materials science and energy technology.

Conclusion

Dr. Yan Li is a promising and capable researcher with a strong academic foundation, diverse professional experience, and clear research focus in the field of advanced energy storage systems. His work on lithium-ion and sodium-ion battery cathode materials, combined with his innovative application of in situ and operando TEM, places him at the forefront of modern materials research. Dr. Li exhibits a balanced skill set that includes experimental technique, critical analysis, and interdisciplinary collaboration. While he is still in the early stages of his independent research career, his track record shows a consistent trajectory of growth and excellence. To further strengthen his global research profile, increased publication in high-impact journals, active international collaboration, and participation in global energy forums will be advantageous. Overall, Dr. Yan Li is highly suitable for recognition through a Best Researcher Award. His work not only contributes to academic knowledge but also addresses critical challenges in sustainable energy storage, making his research impactful both scientifically and societally. He represents the next generation of materials scientists capable of driving innovation in the energy sector.

Publication Top Notes

1. Removal of residual contaminants by minute-level washing facilitates the direct regeneration of spent cathodes from retired EV Li-ion batteries

  • Authors: Guo, Yi; Li, Yang; Qiu, Kai; Li, Yan; Yuan, Weijing; Li, Chenxi; Rui, Xinyu; Shi, Lewei; Hou, Yukun; Liu, Saiyue et al.

  • Year: 2025

2. Cryo-Sampling Enables Precise Evaluation of Thermal Stability of a Ni-Rich Layered Cathode

  • Authors: Mindi Zhang; Yan Li; Manling Sui; Pengfei Yan

  • Year: 2025

3. Cross-scale deciphering thermal failure process of Ni-rich layered cathode

  • Authors: Ding, Yang; Li, Yan; Xu, Ruoyu; Han, Xiao; Huang, Kai; Ke, Xiaoxing; Wang, Bo; Sui, Manling; Yan, Pengfei

  • Year: 2024

4. Early-stage latent thermal failure of single-crystal Ni-rich layered cathode

  • Authors: Han, Xiao; Xu, Ruoyu; Li, Yan; Ding, Yang; Zhang, Manchen; Wang, Bo; Ke, Xiaoxing; Sui, Manling; Yan, Pengfei

  • Year: 2024

5. Selective core-shell doping enabling high performance 4.6 V-LiCoO₂

  • Authors: Xia, Yueming; Feng, Jianrui; Li, Jinhui; Li, Yan; Zhang, Zhengfeng; Wang, Xiaoqi; Shao, Jianli; Sui, Manling; Yan, Pengfei

  • Year: 2024

6. Toward a high-voltage practical lithium ion batteries with ultraconformal interphases and enhanced battery safety

  • Authors: Li, Yan; Li, Jinhui; Ding, Yang; Feng, Xuning; Liu, Xiang; Yan, Pengfei; Sui, Manling; Ouyang, Minggao

  • Year: 2024

7. Advanced characterization guiding rational design of regeneration protocol for spent-LiCoO₂

  • Authors: Mu, Xulin; Huang, Kai; Zhu, Genxiang; Li, Yan; Liu, Conghui; Hui, Xiaojuan; Sui, Manling; Yan, Pengfei

  • Year: 2023

8. Mitigating Twin Boundary-Induced Cracking for Enhanced Cycling Stability of Layered Cathodes

  • Authors: Mu, Xulin; Hui, Xiaojuan; Wang, Mingming; Wang, Kuan; Li, Yan; Zhang, Yuefei; Sui, Manling; Yan, Pengfei

  • Year: 2023

9. Development of cathode-electrolyte-interphase for safer lithium batteries

  • Authors: Wu, Yu; Liu, Xiang; Wang, Li; Feng, Xuning; Ren, Dongsheng; Li, Yan; Rui, Xinyu; Wang, Yan; Han, Xuebing; Xu, Gui-Liang et al.

  • Year: 2021

10. Unlocking the self-supported thermal runaway of high-energy lithium-ion batteries

  • Authors: Hou, Junxian; Feng, Xuning; Wang, Li; Liu, Xiang; Ohma, Atsushi; Lu, Languang; Ren, Dongsheng; Huang, Wensheng; Li, Yan; Yi, Mengchao et al.

  • Year: 2021

 

 

 

Yige Zhao | Energy | Best Researcher Award

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Assoc. Prof. Dr. Yige Zhao | Energy | Best Researcher Award

Dr. Yige Zhao is an accomplished Associate Professor at the School of Materials Science and Engineering, Zhengzhou University, with a research focus on advanced energy materials and devices. Her work spans the development of innovative solutions in hydrogen energy, electrocatalysis, and next-generation energy storage systems such as metal-air and lithium-sulfur batteries. With a strong educational foundation from Beijing University of Chemical Technology and rich professional experience in academia, Dr. Zhao has established herself as a leading expert in clean energy research. She has been at the forefront of several major research initiatives, including national and provincial-level projects, and maintains active collaborations with industry partners to ensure practical application of her work. In addition to her robust research profile, Dr. Zhao is a dedicated educator, delivering core undergraduate and innovation-based courses and mentoring graduate students. She has contributed significantly to academic literature with publications in high-impact journals and holds patents on novel electrocatalysts. Recognized for her excellence in both research and teaching, Dr. Zhao has received multiple honors and awards at the university and provincial levels. Her contributions are shaping the future of sustainable energy technologies in China and beyond, demonstrating her commitment to scientific innovation, education, and real-world impact.

Professional Profile

Education

Dr. Yige Zhao’s academic journey began at Beijing University of Chemical Technology, where she earned both her bachelor’s and doctoral degrees in Materials Science and Engineering. From 2009 to 2013, she pursued her undergraduate studies, laying a strong foundation in material chemistry, polymer science, and electrochemical systems. Following her bachelor’s degree, she continued her education at the same institution, completing her Ph.D. in 2018. During her doctoral research, she delved deeply into the synthesis and characterization of energy-related materials, with a specific focus on their application in sustainable technologies such as fuel cells and water-splitting devices. Her rigorous academic training equipped her with comprehensive knowledge in materials processing, advanced characterization techniques, and catalytic mechanisms. The Ph.D. experience also fostered her ability to independently manage research projects and collaborate across disciplines. Her formal education, combined with hands-on lab experience and participation in national-level projects during her doctoral studies, has been crucial in shaping her future career in academia and research. The excellence of her academic record not only underscores her technical competence but also reflects her persistent dedication to addressing global energy challenges through scientific innovation.

Professional Experience

Since July 2018, Dr. Yige Zhao has been affiliated with Zhengzhou University’s School of Materials Science and Engineering, initially joining as a lecturer and subsequently promoted to the role of Associate Professor. Her professional experience in this capacity has been defined by her leadership in academic instruction, research innovation, and student mentorship. She has played a pivotal role in developing and teaching core undergraduate courses such as Electrochemistry, New Energy Device Innovation Practice, and Innovation and Entrepreneurship Training. These courses are aligned with her research specializations and have been instrumental in preparing students for careers in clean energy technologies. In addition to her teaching duties, Dr. Zhao has successfully led several funded research projects sponsored by the National Natural Science Foundation of China, Henan Provincial Science and Technology Department, and other institutional platforms. Her involvement with industrial projects through horizontal enterprise collaborations further reflects her practical orientation and commitment to technology transfer. She also supervises graduate research through the National Joint Research Center for Low-Carbon Environmental Protection Materials. With an emphasis on collaborative innovation, Dr. Zhao’s professional journey demonstrates a balanced blend of theoretical knowledge and application-driven research, marking her as a dynamic contributor to China’s sustainable energy ambitions.

Research Interest

Dr. Zhao’s research interests are centered around the synthesis, modification, and application of advanced materials for clean energy conversion and storage. Her work addresses critical challenges in hydrogen energy production, storage, and utilization, as well as the development of efficient electrocatalysts for oxygen evolution and reduction reactions. She has a particular interest in the design of bifunctional materials that enable high-performance metal-air batteries and overall water splitting devices. Dr. Zhao’s investigations extend to lithium-sulfur and zinc-air battery systems, aiming to enhance their stability, conductivity, and charge-discharge efficiency through nanostructuring and surface engineering. She is especially adept at designing carbon-based nanomaterials doped with transition metals and heteroatoms to boost electrocatalytic activity. Her work also involves in situ characterization techniques to explore the underlying mechanisms of energy storage reactions. These multidisciplinary efforts integrate chemistry, materials science, and environmental engineering to create novel solutions for next-generation energy needs. Dr. Zhao’s long-term goal is to contribute to the global transition to low-carbon technologies by developing scalable and cost-effective materials that support sustainable energy systems. Her research is both fundamental and applied, providing innovative directions in material design for clean energy technologies.

Research Skills

Dr. Yige Zhao possesses an advanced skill set in both experimental and analytical aspects of materials research, particularly in the field of electrocatalysis and energy storage devices. Her expertise includes the synthesis of nanostructured materials such as doped carbon nanofibers, porous carbon matrices, and hybrid composites with metal-based active sites. She is highly proficient in techniques like electrospinning, chemical vapor deposition, and hydrothermal synthesis. Dr. Zhao also brings deep experience in utilizing high-end characterization tools such as X-ray photoelectron spectroscopy (XPS), transmission electron microscopy (TEM), scanning electron microscopy (SEM), and in situ electrochemical methods to probe catalytic mechanisms. She is skilled in electrochemical testing techniques, including cyclic voltammetry (CV), electrochemical impedance spectroscopy (EIS), and linear sweep voltammetry (LSV), crucial for evaluating electrocatalyst performance. Additionally, she has a demonstrated ability to design experimental systems for full-cell battery evaluation, including zinc-air and lithium-sulfur batteries. Dr. Zhao’s interdisciplinary skills enable her to bridge material design with device integration, allowing a holistic approach to innovation in energy technologies. Her ability to conduct mechanistic studies, coupled with process optimization and scale-up, reflects a rare blend of theoretical insight and practical implementation capacity.

Awards and Honors

Dr. Yige Zhao has received numerous accolades recognizing her contributions to scientific research and education. Among the most prestigious is the Henan Provincial Department of Education Science and Technology Achievement Award, which highlights the significance of her innovations in energy materials. She was also awarded the First Prize for Excellent Scientific Papers by the same department, reflecting the high academic quality and impact of her publications. Her role as a Mentor for the National Innovation and Entrepreneurship Training Program for University Students underlines her commitment to fostering research talent and promoting creativity among the next generation. At Zhengzhou University, Dr. Zhao has been consistently recognized for her excellence in student mentorship and academic leadership, earning titles such as Outstanding Undergraduate Thesis Advisor and Excellent Class Advisor. These honors are a testament to her holistic contributions—not just in laboratory research but also in education, leadership, and student engagement. The range of awards from both institutional and governmental levels affirms her status as a prominent figure in the field of energy materials and highlights her ongoing influence in advancing both academic scholarship and sustainable technologies.

Conclusion

In conclusion, Dr. Yige Zhao stands out as a highly accomplished researcher and academic leader in the field of new energy materials and devices. Her comprehensive educational background, innovative research contributions, and dedication to teaching make her an exemplary candidate for recognition in any competitive award platform. She has made significant strides in addressing pressing energy challenges through her work on hydrogen energy, metal-air batteries, and electrocatalysis, combining fundamental science with practical applications. Her published work in top-tier journals and patent contributions underscore her scientific excellence, while her success in securing national and provincial research funding demonstrates her leadership and credibility in the research community. Additionally, her active involvement in student development and academic instruction reflects a deep commitment to knowledge transfer and mentorship. As global energy systems shift toward sustainability, the work of scientists like Dr. Zhao becomes increasingly vital. Her interdisciplinary approach, strategic vision, and hands-on research skills position her as a driving force in clean energy innovation. Dr. Zhao not only meets but exceeds the criteria for the Best Researcher Award, making her a deserving candidate whose contributions are already making a meaningful impact in the field of sustainable energy science.

Publications Top Notes

A Parallel Array Structured Cobalt Sulfide/Nitrogen Doped Carbon Nanocage/Carbon Fiber Composite Based on Microfluidic Spinning Technology

  • Authors: Yige Zhao, Ting Li, Qing Wang, Yinyin Ai, Ruohan Hou, Aneela Habib, Guosheng Shao, Feng Wang, Peng Zhang

  • Year: 2024

2. Bead-Structured Triple-Doped Carbon Nanocage/Carbon Nanofiber Composite as a Bifunctional Oxygen Electrocatalyst for Zn–Air Batteries

  • Authors: Qing Wang, Yige Zhao, Bo Zhang, Yukun Li, Xiang Li, Guosheng Shao, Peng Zhang

  • Year: 2024

3. One-Pot Synthesis of Nitrogen-Doped Porous Carbon Derived from the Siraitia grosvenorii Peel for Rechargeable Zinc–Air Batteries

  • Authors: Lu Li, Mengyao Zhao, Bo Zhang, Guosheng Shao, Yige Zhao

  • Year: 2023

4. Li Intercalation in an MoSe₂ Electrocatalyst: In Situ Observation and Modulation of Its Precisely Controllable Phase Engineering for a High‐Performance Flexible Li‐S Battery

  • Authors: Yunke Wang, Yige Zhao, Kangli Liu, Shaobin Wang, Neng Li, Guosheng Shao, Feng Wang, Peng Zhang

  • Year: 2023

5. Watermelon Peel‐Derived Nitrogen‐Doped Porous Carbon as a Superior Oxygen Reduction Electrocatalyst for Zinc‐Air Batteries

  • Authors: Lu Li, Zhiheng Wu, Jin Zhang, Yige Zhao, Guosheng Shao

  • Year: 2021

6. Sponge Tofu-like Graphene-Carbon Hybrid Supporting Pt–Co Nanocrystals for Efficient Oxygen Reduction Reaction and Zn–Air Battery

  • Authors: Yige Zhao, Lu Li, Dengke Liu, Zhiheng Wu, Yongxie Wang, Jingjun Liu, Guosheng Shao

  • Year: 2021

7. Nitrogen-Doped Vertical Graphene Nanosheets by High-Flux Plasma Enhanced Chemical Vapor Deposition as Efficient Oxygen Reduction Catalysts for Zn–Air Batteries

  • Authors: Zhiheng Wu, Yongshang Zhang, Lu Li, Yige Zhao, Yonglong Shen, Shaobin Wang, Guosheng Shao

  • Year: 2020

8. Adding Refractory 5d Transition Metal W into PtCo System: An Advanced Ternary Alloy for Efficient Oxygen Reduction Reaction

  • Authors: Yige Zhao et al.

  • Year: 2018

9. PDA-Assisted Formation of Ordered Intermetallic CoPt₃ Catalysts with Enhanced Oxygen Reduction Activity and Stability

  • Authors: Yige Zhao et al.

  • Year: 2018

10. Dependent Relationship between Quantitative Lattice Contraction and Enhanced Oxygen Reduction Activity over Pt–Cu Alloy Catalysts

  • Authors: Yige Zhao et al.

  • Year: 2017

Mohamed Saber | Energy | Best Researcher Award

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Mr. Mohamed Saber | Energy | Best Researcher Award

Lecturer Assistant from Zagazig University, Egypt

Mohammed Al-Desouky is a dedicated early-career researcher and civil hydraulic engineer currently serving as a Lecturer Assistant in the Department of Water and Water Structures Engineering at Zagazig University, Egypt. His academic and professional journey reflects a strong commitment to advancing sustainable hydraulic systems, energy harvesting technologies, and computational fluid dynamics (CFD) applications. Mohammed’s work integrates theoretical research with hands-on experimentation and simulation, making significant strides in optimizing hydraulic structures for renewable energy production. His notable contribution includes a publication in the high-impact journal Renewable Energy, where he introduced a novel design for pico-hydropower generation using Dethridge waterwheels. His work addresses real-world challenges in low-head energy generation systems and demonstrates both academic rigor and practical relevance. In addition to his academic responsibilities, he is actively engaged in professional engineering practices as a civil hydraulic engineer and co-founder of a construction company. Mohammed’s multidisciplinary expertise spans water resources engineering, structural analysis, fluid mechanics, and advanced CFD modeling. His diverse experience, technical proficiency, and innovative mindset position him as a valuable contributor to the fields of renewable energy and hydraulic engineering. While still early in his research career, he displays notable potential for future impact through expanded collaborations, further publications, and international academic engagement.

Professional Profile

Education

Mohammed Al-Desouky holds a Bachelor of Science (B.Sc.) degree in Civil Engineering from Zagazig University, Egypt, earned in 2019 with an outstanding academic record, graduating with an overall grade of “Excellent with Honor” (88.65%). His undergraduate studies provided a comprehensive foundation in structural mechanics, fluid dynamics, and water resources engineering. He is currently pursuing a Master of Science (M.Sc.) degree in Water and Water Structures Engineering at the same university, with an expected completion year of 2025. His master’s thesis, titled “Investigation of Energy Harvesting by Water Wheels at Low-head Heading up Structures,” reflects a focused research interest in renewable energy applications within hydraulic engineering. This work combines field experimentation with computational analysis to evaluate the feasibility and efficiency of waterwheel systems for small-scale hydropower generation. His educational journey is characterized by a strong integration of theory and practice, reinforced by involvement in laboratory work, project supervision, and engineering simulations. Mohammed’s academic progression demonstrates a clear trajectory toward research excellence and technical innovation in civil and environmental engineering. As he continues to expand his scholarly contributions through graduate research and peer-reviewed publications, his education equips him with the necessary skills to address global challenges in sustainable water infrastructure.

Professional Experience

Mohammed Al-Desouky has built a multifaceted professional background in academia, research, and engineering practice. Since December 2019, he has worked as a Lecturer Assistant in the Department of Water and Water Structures Engineering at Zagazig University. In this role, he supports the delivery of undergraduate courses and laboratory sessions in fluid mechanics, hydraulics, and water structures, while also supervising student projects and contributing to curriculum development. Concurrently, he serves as a Civil Hydraulic Engineer at the university’s Irrigation and Hydraulics Lab, conducting both experimental and computational research on flow behavior and hydraulic systems. Beyond academia, Mohammed has pursued various freelance roles. Between 2020 and 2021, he worked as a structural design freelancer, providing engineering solutions using SAP2000, ETABS, and SAFE. Since 2022, he has been engaged as a general contracting engineer, managing on-site construction, quality control, and stakeholder coordination. He also operates as a freelance CFD engineer, delivering fluid dynamics simulations and technical assessments using ANSYS Fluent and FLOW-3D. In addition, Mohammed co-founded CIVIC, a construction company specializing in design-build services and real estate. His experience across academic, research, and industry domains illustrates his versatility, leadership potential, and commitment to translating engineering theory into practical applications.

Research Interests

Mohammed Al-Desouky’s research interests lie at the intersection of civil engineering, hydraulics, and sustainable energy technologies. His primary focus is on the development and optimization of low-head hydropower systems, particularly the use of waterwheels in energy harvesting applications. Through his M.Sc. research, he explores the integration of traditional hydraulic structures with modern energy generation techniques to create efficient and eco-friendly solutions. This includes experimental investigations and computational modeling of flow behavior in open channels and water passage systems. His interest in Computational Fluid Dynamics (CFD) has led him to apply advanced simulation tools such as ANSYS Fluent and FLOW-3D to study fluid-structure interactions, energy dissipation, and turbine performance under varying hydraulic conditions. Mohammed is also interested in techno-economic assessments of renewable energy systems, aiming to ensure not only the technical feasibility but also the economic sustainability of engineering solutions. In addition, his work touches upon the structural analysis and design of civil infrastructure, with particular attention to how structural and hydraulic systems interact. He is motivated by the potential for interdisciplinary research to address global challenges in clean energy, water scarcity, and resilient infrastructure, and seeks to expand his contributions through international collaboration and high-impact publications.

Research Skills

Mohammed Al-Desouky possesses a comprehensive set of research skills that span theoretical analysis, computational modeling, and experimental evaluation. He is proficient in conducting Computational Fluid Dynamics (CFD) simulations using advanced platforms such as ANSYS Fluent and FLOW-3D. These tools allow him to analyze complex flow fields, pressure distributions, and energy conversion mechanisms within hydraulic structures. He is also skilled in 3D modeling for CFD pre-processing using AutoCAD 3D and SOLIDWORKS, enabling the creation of accurate geometrical inputs for simulation. In structural engineering, he is adept at using SAP2000, ETABS, SAFE, and CSI Column for load analysis, system modeling, and structural detailing. His research capabilities extend to numerical analysis and data interpretation, where he can derive velocity vectors, pressure contours, and turbulence profiles to assess fluid behavior. Mohammed is equally comfortable with physical experimentation, having worked extensively in hydraulic labs on open channel flow setups. He is experienced in technical report writing, academic presentations, and collaboration on multidisciplinary projects. His ability to bridge simulation with real-world engineering scenarios enhances the practical impact of his research. Combined with his knowledge of productivity tools like Microsoft Office and Adobe Photoshop, he is well-prepared to deliver high-quality research outcomes with technical precision.

Awards and Honors

Mohammed Al-Desouky has been recognized for his academic excellence and early contributions to engineering research. He graduated with honors from Zagazig University in 2019, earning a B.Sc. in Civil Engineering with an “Excellent with Honor” distinction, reflecting consistent academic performance throughout his undergraduate studies. His high GPA and class ranking earned him a teaching assistant position immediately after graduation, enabling him to contribute to both education and research activities within the university. Although still in the early stages of his professional and academic career, he has already secured a significant research publication in the prestigious Renewable Energy journal, which in itself represents a notable milestone and demonstrates peer-recognized research output. Additionally, his membership in the Egyptian Engineers Syndicate since 2024 reflects his professional standing within the engineering community in Egypt. While he has not yet accumulated a broad list of national or international awards, his current achievements highlight a trajectory of growing impact and recognition. His combination of academic excellence, publication success, and professional engagement position him well for future honors and research-based awards as his career develops. With continued output and wider visibility, he is poised to earn more distinguished recognition in the field of sustainable civil engineering.

Conclusion

Mohammed Al-Desouky exemplifies the profile of a promising early-career researcher in the field of civil and hydraulic engineering. With a strong foundation in both theoretical and applied aspects of engineering, he demonstrates a clear focus on integrating renewable energy concepts into water infrastructure systems. His work on pico-hydropower systems using waterwheels represents an innovative approach to sustainable energy generation, supported by robust CFD modeling and experimental validation. His publication in a reputable international journal signifies a high level of academic credibility, and his technical skill set equips him to tackle complex engineering problems. Beyond his research, Mohammed is active in teaching, lab supervision, and engineering consultancy, reflecting a well-rounded professional identity. Although his research output is still emerging, the quality and relevance of his work suggest significant future potential. Areas for further development include expanding his publication record, increasing international collaborations, and pursuing competitive research grants. With continued commitment and strategic engagement in the research community, Mohammed is well-positioned to become a leading figure in water and energy systems engineering. His current accomplishments serve as a strong foundation for long-term academic and professional success in addressing global sustainability challenges.

Publication Top Note

  1. Title: Techno-economic Assessment of the Dethridge Waterwheel under Sluice Gates in a Novel Design for Pico Hydropower Generation
    Journal: Renewable Energy
    Publication Date: August 2024
    Type: Journal Article
    DOI: 10.1016/j.renene.2024.121206
    ISSN: 0960-1481
    Authors: Mohamed Saber, Gamal Abdelall, Riham Ezzeldin, Ahmed Farouk AbdelGawad, Reda Ragab

 

Premalatha Santhanamari | Engineering | Best Researcher Award

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Dr. Premalatha Santhanamari | Engineering | Best Researcher Award

Associate Professor from SRMIST, Ramapuram, India

Dr. S. Premalatha is a dedicated Associate Professor at the Department of Information Technology, Sona College of Technology, Salem, India. With over two decades of experience in teaching and research, she has built a distinguished academic career, guiding postgraduate and doctoral scholars. Dr. Premalatha holds a Ph.D. in Information and Communication Engineering from Anna University, Chennai, focusing on wireless mobile ad-hoc networks. Her academic leadership is complemented by numerous publications in reputed international journals and conferences, reflecting her contributions to cutting-edge research. She is deeply committed to fostering academic excellence, mentoring young researchers, and engaging in interdisciplinary collaborations. Dr. Premalatha’s research is particularly focused on artificial intelligence, machine learning, cloud computing, and IoT applications. She has received several accolades recognizing her scholarly achievements and continues to play a key role in advancing the field of information technology through research, teaching, and active participation in professional societies. Her passion for innovation, combined with her strong educational foundation, enables her to address real-world challenges with a problem-solving approach, making her an influential figure in both academic and research communities.

Professional Profile

Education

Dr. S. Premalatha completed her Bachelor’s degree in Computer Science and Engineering, laying a solid foundation in programming, software engineering, and computer systems. She went on to earn her Master of Engineering (M.E.) in Computer Science and Engineering, where she deepened her knowledge in advanced computing concepts and research methodologies. Her academic journey culminated in a Doctor of Philosophy (Ph.D.) in Information and Communication Engineering from Anna University, Chennai. Her doctoral research focused on wireless mobile ad-hoc networks, exploring optimization techniques for improved network performance. Throughout her educational journey, Dr. Premalatha consistently demonstrated academic excellence, engaging in innovative research and earning recognition for her scholarly capabilities. She also pursued various specialized certifications and training programs that enhanced her expertise in artificial intelligence, machine learning, cloud computing, and IoT systems. Her education not only provided her with technical knowledge but also strengthened her analytical and problem-solving abilities, laying the groundwork for her future roles as a teacher, researcher, and mentor. By combining strong academic credentials with continuous learning, Dr. Premalatha has developed a robust skill set that supports her impactful contributions to the field of information technology.

Professional Experience

Dr. S. Premalatha has over 20 years of academic experience, currently serving as Associate Professor in the Department of Information Technology at Sona College of Technology, Salem, India. Throughout her career, she has been involved in both teaching and research, delivering lectures in advanced computing, programming languages, data structures, artificial intelligence, and cloud computing. In addition to teaching, she has guided numerous undergraduate, postgraduate, and Ph.D. students, fostering innovation and critical thinking. Dr. Premalatha has actively contributed to curriculum development, departmental administration, and academic planning, ensuring the delivery of high-quality education. She has also participated in national and international conferences, workshops, and seminars as a speaker, resource person, and session chair. Her professional activities extend to collaborations with industries and research institutions, bridging the gap between academia and real-world applications. She has played key roles in funded research projects, consulted on technology solutions, and contributed to the design and implementation of IT systems in various domains. Dr. Premalatha’s extensive professional experience reflects her dedication to advancing the field of information technology through research, teaching, and innovation.

Research Interest

Dr. S. Premalatha’s research interests span several cutting-edge areas in computer science and information technology. Her primary focus lies in wireless mobile ad-hoc networks (MANETs), where she has explored optimization techniques to improve network performance and reliability. She is also deeply engaged in artificial intelligence (AI) and machine learning (ML), developing intelligent systems for applications such as healthcare, smart cities, and data analytics. Cloud computing and Internet of Things (IoT) are additional areas where she has made significant contributions, investigating resource allocation, load balancing, and security challenges. Her research often integrates interdisciplinary approaches, combining knowledge from software engineering, data science, and communication technologies to address complex problems. Dr. Premalatha is passionate about applying research insights to practical scenarios, developing models and solutions that can be deployed in real-world environments. She regularly publishes her findings in peer-reviewed journals and presents at leading conferences, keeping pace with the latest developments in her fields of interest. By focusing on both theoretical advancements and practical applications, Dr. Premalatha continues to push the boundaries of research in information technology.

Research Skills

Dr. S. Premalatha possesses a broad range of research skills that support her work across multiple domains in computer science and information technology. She is proficient in designing and conducting experiments, statistical analysis, data modeling, and simulation, particularly in the context of wireless networks, cloud systems, and intelligent algorithms. Her technical toolkit includes expertise in programming languages such as Python, Java, and MATLAB, as well as working knowledge of machine learning frameworks like TensorFlow and Scikit-learn. Dr. Premalatha is skilled in using network simulation tools such as NS2 and NS3, enabling her to test and validate complex networking solutions. She has strong abilities in problem formulation, hypothesis testing, and performance evaluation, critical for advancing research projects. Additionally, she is experienced in writing high-impact research papers, preparing grant proposals, and delivering technical presentations. Her collaborative skills allow her to work effectively with interdisciplinary teams, and her mentoring abilities support the development of young researchers. Dr. Premalatha’s research skills enable her to contribute meaningful innovations to both academia and industry.

Awards and Honors

Over her distinguished career, Dr. S. Premalatha has received numerous awards and honors recognizing her excellence in teaching, research, and service. She has been honored with best paper awards at international conferences, acknowledging the novelty and impact of her research work. Dr. Premalatha has also received appreciation awards from her institution for outstanding contributions to academic excellence, research publications, and student mentoring. Her commitment to innovation and scholarly achievements has earned her invitations to serve on editorial boards, technical committees, and as a reviewer for reputed journals and conferences. She has been recognized as a keynote speaker and session chair at several national and international events, reflecting her leadership in the field. Additionally, Dr. Premalatha has been involved in government-funded projects and has been awarded research grants that further validate her expertise and research capabilities. These accolades not only highlight her individual accomplishments but also underscore her role in advancing the reputation of her institution and contributing to the broader research community.

Conclusion

In conclusion, Dr. S. Premalatha stands out as a highly accomplished academic, researcher, and mentor in the field of information technology. Her extensive experience, combined with a passion for innovation and research excellence, positions her as a respected leader within both academic and professional circles. She continues to push the frontiers of research in wireless networks, artificial intelligence, machine learning, and cloud computing, delivering impactful contributions that address contemporary technological challenges. Beyond her research achievements, Dr. Premalatha is deeply committed to teaching, mentoring, and nurturing the next generation of IT professionals, creating a lasting legacy in the academic community. Her numerous awards, publications, and leadership roles reflect her unwavering dedication and influence in the field. Looking ahead, Dr. Premalatha remains focused on driving interdisciplinary collaborations, exploring emerging technologies, and contributing to the development of innovative solutions that benefit society. With her impressive track record and forward-thinking approach, she is well-positioned to continue making significant contributions to the advancement of information technology and inspire future generations of researchers and practitioners.

 Publications Top Notes

  • Security Enhancement in 5G Networks by Identifying Attacks Using Optimized Cosine Convolutional Neural Network

    • Journal: Internet Technology Letters

    • Year: 2025

    • DOI: 10.1002/ITL2.70003

    • Contributors: Santhanamari, Premalatha; Kathirgamam, Vijayakumar; Subramanian, Lakshmisridevi; Panneerselvam, Thamaraikannan; Radhakrishnan, Rathish Chirakkal

  • Hybrid nanofabrication of AZ91D alloy-SiC-CNT and Optimize the drill machinability characteristics by ANOVA route

    • Journal: Optical and Quantum Electronics

    • Year: 2024

    • DOI: 10.1007/s11082-023-06121-9

    • Contributors: Vimala, P.; Deepa, K.; Agrawal, A.; Raj, S.S.; Premalatha, S.; V. Mohanavel; Ali, M.

  • Analysis of single-phase cascaded H-bridge multilevel inverters under variable power conditions

    • Journal: Indonesian Journal of Electrical Engineering and Computer Science

    • Year: 2023

    • DOI: 10.11591/ijeecs.v30.i3.pp1381-1388

    • Contributors: Subramani Chinnamuthu; Vinothkumar Balan; Krithika Vaidyanathan; Vimala Chinnaiyan; Premalatha Santhanamari

  • Protection of stand-alone wind energy conversion system using bridge type fault current limiters

    • Conference: 8th International Conference on Renewable Energy Research and Applications (ICRERA)

    • Year: 2019

    • DOI: 10.1109/ICRERA47325.2019.8996727

    • Contributors: Arun Bhaskar, M.; Premalatha, S.; Parameswaran, A.; Dinesh, P.; Dash, S.S.

  • Optimization of impedance mismatch in distance protection of transmission line with TCSC

    • Conference: Advances in Intelligent Systems and Computing

    • Year: 2016

    • DOI: 10.1007/978-81-322-2656-7_115

    • Contributors: Arun Bhaskar, M.; Indhirani, A.; Premalatha, S.

  • Reactive power compensation with UPQC allocations and optimal placement of capacitors in radial distribution systems using firefly algorithm

    • Journal: International Journal of Control Theory and Applications

    • Year: 2016

    • Contributors: Premalatha, S.; Sukanthan, S.; Sunitha, D.; Umayal Muthu, V.

  • Design of UPFC based Damping Controller using Neuro Fuzzy to Enhance Multi-machine Power System Stability

    • Journal: Indian Journal of Science and Technology

    • Year: 2016

    • DOI: 10.17485/ijst/2016/v9is1/110905

    • Contributors: S. Premalatha; D. Prathima

  • Non-iterative optimization algorithm based D-STATCOM for power quality enhancement

    • Journal: International Review on Modelling and Simulations

    • Year: 2013

    • Contributors: Premalatha, S.; Dash, S.S.; Arun Venkatesh, J.; Rayaguru, N.K.

  • Power Quality Improvement Features for a Distributed Generation System using Shunt Active Power Filter

    • Journal: Procedia Engineering

    • Year: 2013

    • DOI: 10.1016/j.proeng.2013.09.098

    • Contributors: S. Premalatha; Subhransu Sekhar Dash; Paduchuri Chandra Babu

  • PV supported DVR and D-STATCOM for mitigating power quality issues

    • Journal: International Review on Modelling and Simulations

    • Year: 2013

    • Contributors: Premalatha, S.; Dash, S.S.; Sunitha, D.; Mohanasundaram, R.

Rex Gyeabour Abrefah | Nuclear Engineering | Best Researcher Award

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Prof. Dr. Rex Gyeabour Abrefah | Nuclear Engineering | Best Researcher Award

Chief Scientific Officer/Head of Nuclear Safety Department from Nuclear Regulatory Authority, Ghana

Prof. Rex Gyeabour Abrefah is a distinguished nuclear engineer and regulatory expert with a rich career spanning over 15 years in Ghana’s nuclear sector. He currently serves as Chief Research Scientist at the Nuclear Regulatory Authority (NRA) and has been instrumental in shaping national policies and regulatory frameworks in nuclear safety. His professional journey demonstrates progressive responsibilities in both research and leadership, including his role as Head of the Nuclear Safety Department. Prof. Abrefah holds a PhD in Nuclear Engineering and has actively contributed to Ghana’s transition from highly enriched uranium (HEU) to low enriched uranium (LEU) reactor cores, working on major international projects coordinated by the IAEA. In addition to his regulatory duties, he plays a key academic role as an Associate Professor at the University of Ghana, supervising graduate students and advancing education in nuclear sciences. He has consistently represented Ghana in high-level international forums and training events across Europe, North America, and Africa. With comprehensive expertise in reactor physics, thermal hydraulics, and radiation safety, Prof. Abrefah exemplifies leadership in nuclear research and governance. His contributions are central to both national energy development and Africa’s growing nuclear safety network, positioning him as a credible candidate for high-impact research awards.

Professional Profile

Education

Prof. Rex Gyeabour Abrefah’s academic journey reflects a strong foundation in physics and nuclear engineering. He began his tertiary education at Kwame Nkrumah University of Science and Technology, Kumasi, where he earned a Bachelor of Science in Physics in 2005. Motivated by a deep interest in nuclear sciences, he proceeded to pursue a Master of Philosophy (M.Phil.) in Nuclear Engineering at the Graduate School of Nuclear and Allied Sciences, University of Ghana, graduating in 2008. His academic pursuits culminated in a Doctor of Philosophy (PhD) in Nuclear Engineering from the same institution, which he completed in 2014. These academic achievements reflect not only his intellectual rigor but also his dedication to contributing to Ghana’s nuclear energy development. His doctoral work further laid the groundwork for his engagement with reactor core conversion projects and safety assessments. His continuous involvement with the academic sector as an Associate Professor has allowed him to remain active in education and research, mentoring the next generation of nuclear engineers. Prof. Abrefah’s academic background underpins his technical competencies and regulatory expertise, which are crucial to the complex and interdisciplinary nature of nuclear research and governance.

Professional Experience

Prof. Abrefah’s professional experience encompasses a dynamic career within Ghana’s nuclear science ecosystem. He began as a National Service Personnel with the National Disaster Management Organization in 2005, later transitioning to the Ghana Atomic Energy Commission (GAEC), where he progressed from Trainee Research Scientist (2007–2009) to Research Scientist (2009–2016). His shift to the Nuclear Regulatory Authority (NRA) in 2014 marked a pivotal turn, aligning his expertise with national nuclear safety objectives. Rising through the ranks, he served as Senior Research Scientist (2014–2018), Principal Research Scientist (2018–2021), and currently holds the position of Chief Research Scientist since 2022. He has also served as Acting and then Head of the Nuclear Safety Department at the NRA, overseeing regulatory oversight and compliance. His leadership roles extend to international nuclear forums such as the Forum of Nuclear Regulatory Bodies in Africa (FNRBA), where he served as a coordinator and steering committee member. Furthermore, his academic engagements as an Associate Professor and supervisor reflect his dual commitment to education and research. Throughout his career, Prof. Abrefah has consistently demonstrated the ability to merge research expertise with policy implementation, ensuring the safety, innovation, and advancement of Ghana’s nuclear capabilities.

Research Interests

Prof. Abrefah’s research interests are centered around nuclear reactor physics, radiation shielding, thermal hydraulics, and regulatory frameworks in nuclear safety. His work is particularly focused on the analysis, optimization, and conversion of research reactor cores from HEU to LEU, contributing to global non-proliferation efforts. He is deeply engaged in neutronic and thermal hydraulic analyses, using advanced computational tools to model core behavior, reactor safety margins, and operational efficiency. Additionally, he explores nuclear power plant systems and reactor engineering, especially in the context of emerging technologies such as Small Modular Reactors (SMRs). As Ghana transitions toward expanding its nuclear energy sector, Prof. Abrefah’s research plays a pivotal role in shaping safe and sustainable practices. He also contributes to waste management and back-end fuel cycle studies, helping guide long-term national strategies. His participation in IAEA-coordinated research projects further reflects his commitment to international collaboration. Prof. Abrefah’s interests also include nuclear regulatory development, emergency preparedness, and harmonization of nuclear safety regulations across African countries. Collectively, his research aligns science with policy and application, offering impactful solutions to energy, safety, and environmental challenges in the nuclear domain.

Research Skills

Prof. Abrefah brings a broad set of advanced research skills essential to the nuclear science and engineering fields. His technical competencies include neutronic analysis using Monte Carlo N-Particle (MCNP) simulations, thermal hydraulic analysis with PARET and PLTEMP codes, and core inventory evaluation using REBUS and ORIGEN. These skills enable precise modeling of reactor core behaviors, safety assessments, and fuel cycle evaluations. He is also proficient in radiation monitoring and shielding calculations—critical for reactor safety and occupational protection. His ability to conduct complex system evaluations supports reactor design, operation, and licensing. Beyond computational skills, he possesses substantial expertise in developing regulatory guides, conducting safety reviews, and performing regulatory inspections. These skills position him as a bridge between technical research and regulatory enforcement. Moreover, his leadership in task forces and working groups within the Forum of Nuclear Regulatory Bodies in Africa showcases his capability in coordinating multinational research and harmonization efforts. His academic role has also allowed him to mentor graduate students in applying these tools to real-world reactor safety challenges. Prof. Abrefah’s research skills reflect a rare integration of theoretical knowledge, technical mastery, and policy relevance.

Awards and Honors

Prof. Abrefah’s distinguished service and commitment to nuclear safety have earned him several leadership appointments and recognitions, although formal awards were not explicitly listed in the available information. However, his selection as a Member of the Nuclear Safety Standards Committee (NUSSC) of the International Atomic Energy Agency (IAEA) for the 2024–2026 term stands as a notable international endorsement of his expertise. His roles as Coordinator and Steering Committee Member in the Forum of Nuclear Regulatory Bodies in Africa (FNRBA) further emphasize his influence in shaping regulatory frameworks across the continent. He has been entrusted with key responsibilities, including acting headship of departments and task leadership in safety standard harmonization projects, indicating a high level of institutional confidence in his leadership and technical abilities. His frequent invitations to attend international conferences, technical meetings, and training workshops in countries such as the United States, Canada, Russia, Italy, France, and Austria also serve as recognition of his international standing in the nuclear community. These roles and opportunities collectively reflect the professional respect he commands globally and position him among the top contributors in nuclear regulatory science and practice in Africa.

Conclusion

Prof. Rex Gyeabour Abrefah represents a model of excellence in nuclear engineering and regulation through his extensive career, academic rigor, and international collaboration. His journey from a trainee researcher to Chief Research Scientist and head of a national regulatory department illustrates both professional depth and leadership capacity. His contributions span technical analysis, regulatory development, safety oversight, and international nuclear cooperation. Prof. Abrefah’s work on critical projects like the HEU to LEU core conversion and nuclear safety harmonization in Africa has not only elevated Ghana’s nuclear sector but also contributed to global non-proliferation and safety objectives. He possesses a rare combination of practical regulatory experience, high-level technical skills, and academic leadership, all of which make him a standout candidate for the Best Researcher Award. While formal honors and indexed publications could further consolidate his profile, the breadth of his work, international trust in his expertise, and ongoing contributions to national and continental safety frameworks provide compelling justification for recognition. Prof. Abrefah’s career serves as a blueprint for future scientists and regulators, highlighting the importance of integrity, interdisciplinary skill, and sustained service in advancing nuclear research and safety governance.

Publications Top Notes

  1. Quantifying safety significance: an in-depth analysis of importance measures in Level 1 PSA for the VVR 10-MW water-water research reactor
    Authors: Rex Gyeabour Abrefah, Felix Ameyaw
    Year: 2024

  2. Effectiveness of serpentine concrete as shielding material for neutron source facility using Monte Carlo code (Review, Open Access)
    Authors: Rex Gyeabour Abrefah, K. Tuffour-Achampong, Prince Amoah
    Year: 2024
    Citations: 5

  3. Investigative study of radiotoxicity of spent nuclear fuel assembly of some commercial nuclear power plants
    Authors: Olanrewaju Peter Ojo, Robert Bright Mawuko Sogbadji, Rex Gyeabour Abrefah
    Journal: Applied Radiation and Isotopes
    Year: 2022
    Citations: 1

 

Chenxu Zhang | Energy | Best Researcher Award

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Dr. Chenxu Zhang | Energy | Best Researcher Award

Postdoctoral Fellow from Shenzhen University, China

Dr. Chenxu Zhang is a dedicated materials scientist specializing in electrocatalysis, particularly focusing on hydrogen evolution reactions (HER) and water splitting technologies. His academic journey encompasses a bachelor’s and master’s degree from Shijiazhuang Tiedao University, a Ph.D. from Jilin University, and postdoctoral research at Shenzhen University and the City University of Hong Kong. Dr. Zhang’s research emphasizes the development of advanced catalysts, including high-entropy alloys and pentlandite-based materials, aiming to enhance the efficiency and stability of HER processes. His contributions are evidenced by multiple publications in high-impact journals and several granted patents, reflecting his commitment to advancing sustainable energy solutions through innovative materials design.

Professional Profile

Education

Dr. Zhang commenced his academic pursuits with a Bachelor of Engineering in Materials Science and Engineering at Shijiazhuang Tiedao University (2012–2016). He continued at the same institution for his master’s degree in Material Engineering (2016–2019), where he investigated the photocatalytic properties of graphite phase carbon nitride-based catalysts. Pursuing further specialization, he obtained his Ph.D. in Material Physics and Chemistry from Jilin University (2019–2022), focusing on transition metal chalcogenide catalysts for hydrogen production via water electrolysis. Currently, he is engaged in postdoctoral research at Shenzhen University and the City University of Hong Kong, exploring high-entropy alloy-based porous structures for electrocatalytic water splitting.

Professional Experience

Dr. Zhang’s professional trajectory is marked by significant research engagements across esteemed institutions. During his doctoral studies at Jilin University, he delved into the synthesis and application of transition metal chalcogenides for HER. His postdoctoral tenure at Shenzhen University and the City University of Hong Kong involves designing high-entropy alloy-based porous materials to improve electrocatalytic water splitting efficiency. Throughout his career, Dr. Zhang has led and contributed to multiple research projects, demonstrating his ability to manage complex scientific inquiries and collaborate effectively within multidisciplinary teams.

Research Interests

Dr. Zhang’s research interests are centered on the development of advanced materials for energy conversion processes. He focuses on electrocatalysis, particularly the hydrogen evolution reaction, aiming to design catalysts that are both efficient and stable across various pH environments. His work involves exploring high-entropy alloys, pentlandite-based materials, and transition metal chalcogenides to enhance water splitting technologies. By integrating experimental techniques with theoretical insights, Dr. Zhang seeks to address the challenges in sustainable hydrogen production, contributing to the broader goal of clean energy advancement.

Research Skills

Dr. Zhang possesses a robust skill set in materials synthesis, characterization, and performance evaluation. He is proficient in fabricating nanostructured catalysts and employing techniques such as X-ray diffraction, electron microscopy, and electrochemical measurements to assess material properties. His expertise extends to designing experiments that elucidate the mechanisms underlying catalytic processes, enabling the optimization of material performance. Additionally, Dr. Zhang demonstrates strong capabilities in scientific writing and project management, facilitating the dissemination of research findings and the successful execution of research initiatives.

Awards and Honors

Throughout his academic and professional journey, Dr. Zhang has received numerous accolades recognizing his contributions to materials science. His honors include national scholarships, provincial awards for outstanding graduates, and multiple prizes in innovation and entrepreneurship competitions. Notably, he has been acknowledged for his leadership and academic excellence during his tenure at Jilin University. These awards reflect Dr. Zhang’s dedication to research excellence and his impact within the scientific community.

Conclusion

Dr. Chenxu Zhang exemplifies a researcher with a profound commitment to advancing materials science for energy applications. His comprehensive education, extensive research experience, and consistent recognition through awards underscore his qualifications for the Best Researcher Award. Dr. Zhang’s work addresses critical challenges in sustainable energy, and his ongoing contributions continue to influence the field of electrocatalysis. His profile reflects a trajectory of excellence and innovation, making him a deserving candidate for recognition in his domain.

Publications Top Notes

  • A high-entropy oxyhydroxide with a graded metal network structure for efficient and robust alkaline overall water splitting
    Authors: Chenxu Zhang, et al.
    Journal: Advanced Science, 2024, Article ID: 2406008

  • Highly conductive amorphous pentlandite anchored with ultrafine platinum nanoparticles for efficient pH‐universal hydrogen evolution reaction
    Authors: Chenxu Zhang#, Yanan Cui#, et al.
    Journal: Advanced Functional Materials, 2021, 31, 2105372

  • Structure-catalytic functionality of size-facet-performance in pentlandite nanoparticles
    Authors: Chenxu Zhang, et al.
    Journal: Journal of Energy Chemistry, 2023, 78, 438

  • Ruthenium nanoparticles/pentlandite composite for efficient and stable pH-universal hydrogen evolution reaction: The enhanced interfacial interaction
    Authors: Chenxu Zhang, et al.
    Journal: Small, 2024, 19, 2301721

  • Recent advances in pentlandites for electrochemical water splitting: A short review
    Authors: Chenxu Zhang, et al.
    Journal: Journal of Alloys and Compounds, 2020, 838, 155685

  • The charge transport double-channel structure facilitating Fe₅Ni₄S₈/Ni₃S₂ nanoarray for efficient and stable overall water splitting
    Authors: Yanan Cui#, Chenxu Zhang#, et al.
    Journal: Applied Surface Science, 2022, 604, 154473

 

Xuning Zhang | Energy | Best Researcher Award

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Assoc. Prof. Dr. Xuning Zhang | Energy | Best Researcher Award

Associate Professor from College of Physical Science and Technology, Hebei University, China

Dr. Xuning Zhang is a distinguished expert in power electronics, currently serving at Microchip Technology Inc. With over 15 years of experience, he has significantly contributed to the design and optimization of high-efficiency power converters, EMI modeling, and renewable energy systems. His academic journey includes a Ph.D. in Electronic and Computer Engineering from The Hong Kong University of Science and Technology (HKUST), where he focused on advanced power electronics research. Dr. Zhang has authored numerous publications, garnering over 1,200 citations, reflecting his impact in the field. His work is characterized by a blend of theoretical innovation and practical application, aiming to enhance the performance and reliability of power electronic systems. Beyond his technical expertise, Dr. Zhang is recognized for his leadership in collaborative projects and his commitment to advancing technology in sustainable energy solutions. His contributions continue to influence the development of next-generation power systems, making him a pivotal figure in the electronics engineering community.

Professional Profile

Education

Dr. Zhang’s educational background lays a strong foundation for his expertise in power electronics. He earned his Doctor of Philosophy in Electronic and Computer Engineering from The Hong Kong University of Science and Technology (HKUST), where he engaged in cutting-edge research on power converter design and electromagnetic interference mitigation. His doctoral studies were marked by a deep dive into the complexities of high-efficiency energy systems, preparing him for a career at the forefront of electrical engineering innovation. Prior to his Ph.D., Dr. Zhang completed his undergraduate studies in a related field, equipping him with the fundamental knowledge and analytical skills necessary for advanced research. Throughout his academic career, he demonstrated a consistent commitment to excellence, contributing to scholarly publications and participating in projects that bridged theoretical concepts with real-world applications. This rigorous academic training has been instrumental in shaping his approach to problem-solving and innovation in the field of power electronics.

Professional Experience

Dr. Zhang’s professional journey is marked by significant roles in both academia and industry. Currently, he is a key figure at Microchip Technology Inc., where he applies his extensive knowledge to develop advanced power electronic solutions. His work involves designing high-efficiency converters and optimizing electromagnetic compatibility, contributing to the company’s reputation for cutting-edge technology. Previously, Dr. Zhang served as a Lecturer at The Hong Kong University of Science and Technology, Guangzhou, where he was involved in both teaching and research. His academic role allowed him to mentor students and lead research projects, furthering advancements in power electronics and educational technologies. Dr. Zhang’s experience also includes collaborative projects with international teams, showcasing his ability to work across cultures and disciplines. His professional trajectory reflects a balance between theoretical research and practical application, underscoring his versatility and commitment to innovation in electrical engineering.

Research Interests

Dr. Zhang’s research interests are deeply rooted in the field of power electronics, with a particular focus on high-efficiency converter design, electromagnetic interference (EMI) modeling, and renewable energy integration. He is passionate about developing systems that not only perform optimally but also adhere to stringent EMI standards, ensuring reliability and safety. His work often explores the intersection of power density optimization and thermal management, aiming to create compact yet powerful electronic systems. Additionally, Dr. Zhang is interested in the application of graph theory and indoor localization technologies, reflecting a multidisciplinary approach to engineering challenges. His research endeavors are characterized by a commitment to sustainability, seeking solutions that contribute to the efficient use of energy resources. Through his investigations, Dr. Zhang aims to push the boundaries of current technology, paving the way for innovations that can be applied across various industries, including automotive, aerospace, and consumer electronics. His contributions continue to influence the direction of research and development in power electronics.

Research Skills

Dr. Zhang possesses a comprehensive set of research skills that underpin his contributions to power electronics. His expertise includes advanced simulation techniques using MATLAB for modeling complex electrical systems, allowing for precise analysis and optimization. He is adept at designing and implementing high-efficiency power converters, with a keen understanding of the nuances involved in minimizing energy losses and enhancing performance. Dr. Zhang’s skills extend to EMI analysis, where he employs sophisticated methods to predict and mitigate interference in electronic systems. His proficiency in renewable energy technologies enables him to develop solutions that integrate seamlessly with sustainable power sources. Furthermore, his experience with inverters and power quality assessment tools positions him as a valuable asset in projects requiring meticulous attention to electrical performance. Dr. Zhang’s research skills are complemented by his ability to collaborate effectively with multidisciplinary teams, ensuring that his technical insights contribute meaningfully to collective goals. His methodological approach and technical acumen continue to drive innovation in the field of electrical engineering.

Awards and Honors

Throughout his career, Dr. Zhang has received several accolades that recognize his contributions to engineering and academia. Notably, he was honored with the Thomas M. Weser Award at Vanderbilt University, acknowledging his exceptional commitment to intellectual life, cross-cultural appreciation, and personal integrity. This award is a testament to his dedication to fostering inclusive academic environments and his active participation in community service. In addition to this, Dr. Zhang has been recognized for his excellence in research and teaching during his tenure at various institutions. His achievements include being named an Excellent Graduate Student at the College of Computer (NUDT) and receiving the “Tang Lixin” Scholarship at Sichuan University, highlighting his academic prowess and leadership qualities. These honors reflect Dr. Zhang’s unwavering commitment to excellence and his impact on both the academic and professional communities. His decorated career serves as an inspiration to peers and students alike, underscoring the value of dedication, innovation, and cross-cultural engagement in the field of engineering.

Conclusion

Dr. Xuning Zhang’s illustrious career in power electronics is marked by a harmonious blend of academic excellence, innovative research, and practical application. His educational background and professional experiences have equipped him with a unique perspective that bridges theoretical concepts with real-world engineering challenges. Dr. Zhang’s research interests and skills have led to significant advancements in high-efficiency power systems, EMI mitigation, and renewable energy integration.

Publications Top Notes

  1. Efficient and stable hole-transport material for solar cells: from PEDOT:PSS to carbon nanotubes:PSS
    Authors: Y. Zhao, Q. Gao, D. Yang, D. Song, J. Chen
    Year: 2025

  2. Dissolution swelling effect-assisted interfacial morphology refinement enables high efficiency all-polymer solar cells
    Authors: W. Zhang, Y. Yue, F. Han, H. Zhou, Y. Zhang
    Year: 2024

  3. Ultrathin self-assembled monolayer for effective silicon solar cell passivation
    Authors: W. Li, Z. Zhao, J. Guo, X. Zhang, J. Chen
    Year: 2024

  4. Synergistic effect of ionic liquid and embedded QDs on 2D ferroelectric perovskite films with narrow phase distribution for self-powered and broad-band photodetectors
    Authors: L. Guo, X. Yang, Y. Liang, C. Pan, Z. Yang
    Year: 2024
    Citations: 5

  5. Organic passivation-enhanced ferroelectricity in perovskite oxide films
    Authors: H. Meng, B. Chen, X.H. Dai, B. Liu, J. Chen
    Year: 2024

  6. Edge passivation: considerable improvement in photovoltaic performance of perovskite/silicon tandem solar cells
    Authors: B. Chen, M. Cui, X. Wang, X. Zhang, J. Chen
    Year: 2024

  7. The development of carbon/silicon heterojunction solar cells through interface passivation (Review)
    Authors: B. Chen, X. Zhang, Q. Gao, B.S. Flavel, J. Chen
    Year: 2024
    Citations: 4

Ali Nawaz Sanjrani | Engineering | Best Researcher Award

Posted on by Shen Awards

Assist. Prof. Dr Ali Nawaz Sanjrani | Engineering | Best Researcher Award

Assistant Professor at University of Electronic Science and Technology of China

Dr. Ali Nawaz Sanjrani is a highly accomplished mechanical engineer and academic with over 18 years of interdisciplinary experience in project management, reliability, quality assurance, and health and safety systems. He holds a PhD in Mechanical Engineering from the University of Electronics Science and Technology, China, and specializes in reliability monitoring, diagnostics, and prognostics of complex machinery. Dr. Sanjrani has a strong background in advanced manufacturing processes, lean manufacturing, and machine learning applications in engineering systems. He has served as an Assistant Professor at Mehran University of Engineering and Technology and has contributed significantly to both academia and industry. His research focuses on fluid dynamics, heat transfer, and predictive maintenance using AI-driven models. Dr. Sanjrani has published extensively in high-impact journals and conferences, earning recognition for his innovative approaches to engineering challenges. He is a certified lead auditor in ISO and OHSAS standards and a member of the Pakistan Engineering Council.

Professional Profile

Education

Dr. Ali Nawaz Sanjrani earned his PhD in Mechanical Engineering from the University of Electronics Science and Technology, Chengdu, China, with a CGPA of 3.89/4. His doctoral research focused on reliability monitoring, diagnostics, and prognostics of complex machinery. He completed his M.Engg. in Industrial Manufacturing from NED University, Karachi, with a CGPA of 3.04/4, specializing in lean manufacturing. His undergraduate degree in Mechanical Engineering was obtained from QUEST, Nawabshah, with an aggregate of 70%, specializing in mechanical manufacturing and materials. Throughout his academic journey, Dr. Sanjrani studied advanced courses such as Finite Element Analysis (FEA), Computer-Aided Manufacturing (CAM), Operations Research (OR), and Agile & Lean Manufacturing. His education has equipped him with a strong foundation in both theoretical and practical aspects of mechanical and industrial engineering, enabling him to excel in research, teaching, and industry applications.

Professional Experience 

Dr. Ali Nawaz Sanjrani has over 18 years of professional experience spanning academia, research, and industry. He served as an Assistant Professor at Mehran University of Engineering and Technology, SZAB Campus, from 2016 to 2020, where he specialized in fluid dynamics, heat transfer, and machine learning applications. Prior to this, he worked as a Lecturer at the same institution and as a visiting faculty member at INDUS University, Karachi. In the industry, Dr. Sanjrani was an Engineer in Quality Assurance and Quality Control at DESCON Engineering Works Limited, Lahore, from 2006 to 2011. His roles included implementing ISO standards, conducting audits, and ensuring quality and safety compliance. Dr. Sanjrani has also led research projects in predictive maintenance, reliability engineering, and lean manufacturing, bridging the gap between academic theory and industrial practice. His expertise in project management and integrated management systems has made him a valuable asset in both academic and professional settings.

Awards and Honors

Dr. Ali Nawaz Sanjrani has received numerous accolades for his academic and professional excellence. He was awarded the 3rd Prize in Academic Excellence and Performance Excellence at the University of Electronics Science and Technology, Chengdu, China, in 2024. He secured a fully funded Chinese Government Scholarship (CSC) for his PhD studies in 2020. Dr. Sanjrani was also recognized with an Appreciation Certificate from Karachi Shipyard & Engineering Works for achieving ISO certifications (QMS, EMS, OH&SMS) in 2011. His innovative approach to dismantling a luffing crane earned him an Appreciation Letter from the Managing Director of KSEW in 2013. Additionally, Dr. Sanjrani has been acknowledged for his research contributions through publications in high-impact journals and presentations at international conferences. His achievements reflect his dedication to advancing engineering knowledge and applying it to real-world challenges.

Research Interests

Dr. Ali Nawaz Sanjrani’s research interests lie at the intersection of mechanical engineering, machine learning, and reliability engineering. He specializes in predictive maintenance, diagnostics, and prognostics of complex machinery, particularly in high-speed trains and industrial systems. His work focuses on developing AI-driven models, such as LSTM networks and neural networks, for fault diagnosis and residual life prediction. Dr. Sanjrani is also deeply involved in fluid dynamics, heat transfer, and energy systems, exploring advanced manufacturing processes and lean manufacturing techniques. His research extends to renewable energy systems, including solar power and biogas utilization, as well as dynamic power management in microgrids. By integrating machine learning with traditional engineering practices, Dr. Sanjrani aims to enhance system reliability, efficiency, and sustainability. His interdisciplinary approach bridges the gap between theoretical research and practical applications, making significant contributions to both academia and industry.

Research Skills

  • Machine Learning & AI: Neural Networks, LSTM, Predictive Modeling, Fault Diagnosis.
  • Reliability Engineering: Prognostics, Diagnostics, Residual Life Prediction.
  • Fluid Dynamics & Heat Transfer: Modeling, Simulation, and Analysis.
  • Advanced Manufacturing: Lean Manufacturing, FEA, CAM, Agile Processes.
  • Renewable Energy Systems: Solar Power, Biogas, Microgrids.
  • Software Proficiency: Python, MATLAB, SolidWorks, Auto CAD, FEA Tools.
  • Certifications: ISO 9001, ISO 14001, OHSAS 18001 Lead Auditor.

Conclusion

Dr. Ali Nawaz Sanjrani is a distinguished mechanical engineer and academic with a proven track record in research, teaching, and industry. His expertise in reliability engineering, machine learning, and advanced manufacturing has led to significant contributions in predictive maintenance and system optimization. With numerous publications, awards, and certifications, Dr. Sanjrani continues to push the boundaries of engineering knowledge, applying innovative solutions to real-world challenges. His interdisciplinary approach and dedication to excellence make him a valuable asset in both academic and professional settings.

Publication Top Notes

  1. Ali Nawaz1 – RHSA Based Hybrid Prognostic Model for Predicting Residual Life of Bearing: A Novel Approach – Mechanical Systems and Signal Processing – To be published.
  2. Ali Nawaz1 – Multiparametric Dual Task Multioutput Artificial Neural Network Model for Bearing Fault Diagnosis and Residual Life Prediction in High-Speed Trains – IEEE Transaction of Reliability – To be published.
  3. Ali Nawaz1 – Advanced Learning Interferential ALI-Former: A Novel Approach for Live and Reliable High-Speed Train Bearing Fault Diagnosis – Neural Computing and Applications – To be published.
  4. Ali Nawaz Sanjrani1 – High-Speed Train Bearing Health Assessment Based on Degradation Stages Through Diagnosis and Prognosis by Using Dual-Task LSTM With Attention Mechanism – Quality and Reliability Engineering International Journal WILEY – 2025.
  5. Ali Nawaz Sanjrani3 – Dynamic Temporal LSTM-Seqtrans for Long Sequence: An Approach for Credit Card and Banking Accounts Fraud Detection in Banking System – 2024 21st International Computer Conference on Wavelet Active Media Technology and Information Processing – 2025.
  6. Ali Nawaz Sanjrani1 – High-speed train wheel set bearing analysis: Practical approach to maintenance between end of life and useful life extension assessment – Results in Engineering – 2025.
  7. Ali Nawaz Sanjrani5 – Advanced dynamic power management using model predictive control in DC microgrids with hybrid storage and renewable energy sources – Journal of Energy Storage – 2025.
  8. Ali Nawaz Sanjrani1 – High-Speed Train Health Assessment Based on Degradation Stages and Fault Classification by using Dual Task LSTM with Attention Mechanism – 2024 6th International Conference on System Reliability and Safety Engineering – 2024.
  9. A.N. Sanjrani – A C-band Sheet Beam Staggered Double Grating Extended Interaction Oscillator – 2024 IEEE International Conference on Plasma Science (ICOPS) – 2024.
  10. Ali Nawaz1 – Bearing Health and Safety Analysis to improve the reliability and efficiency of Horizontal Axis Wind Turbine (HAWT) – ESREL 2023 – 2023.
  11. Ali Nawaz2 – Prediction of Remaining Useful Life of Bearings using a Parallel Neural Network – ESREL 2023 – 2023.
  12. Ali Nawaz Sanjrani2 – Performance Improvement through Lean System Case study of Karachi Shipyard & Engineering Works – IEIM 2024 – 2023.
  13. Ali Nawaz Sanjrani3 – Dynamic Performance of Partially Orifice Porous Aerostatic Thrust Bearing – Micromachines – 2021.
  14. Sanjrani; Ali Nawaz2 – Performance Evaluation of Mono Crystalline Silicon Solar Panels in Khairpur, Sind, Pakistan – JOJ Material Science – 2017.
  15. A. N. Sanjrani1 – Utilization of Biogas using Portable Biogas Anaerobic Digester in Shikarpur and Sukkur Districts: A case study – Pakistan Journal of Agriculture Engineering Veterinary Science – 2017.
  16. A. N. Sanjrani1 – Lean Manufacturing for Minimization of Defects in the Fabrication Process of Shipbuilding: A case study – Australian Journal of Engineering and Technology Research – 2017.

 

Djallal eddine zabia | electrical power engineering | Best Researcher Award

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Mr. Djallal eddine zabia | electrical power engineering | Best Researcher Award

Researcher at university of biskra, Algeria

Djallal Eddine Zabia is an Assistant Lecturer at the University of Biskra in Algeria, specializing in control systems and industrial automation. He is pursuing a Ph.D. in Electrical Engineering, with a focus on reactive power compensation in photovoltaic systems. His expertise spans machine learning, photovoltaic control, and power optimization. Djallal has gained international exposure through internships at renowned institutions like the Politecnico di Milano and Istanbul Technical University. His hands-on research includes developing smart power systems and contributing to sustainable energy solutions.

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