Javad Saien | Petroleum refinery wastewater treatment | Best Research Article Award

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Prof. Javad Saien | Petroleum refinery wastewater treatment | Best Research Article Award

Academic staff at Bu-Ali Sina University, Hamedan, Iran

Professor Javad Saien is a distinguished academic and prolific researcher in chemical engineering, currently serving as a professor at the Faculty of Chemistry and Petroleum Science at Bu-Ali Sina University, Iran. With a career spanning over three decades, he has made significant contributions in the fields of environmental remediation, interfacial phenomena, and chemical processes. He is recognized globally for his innovative work in photocatalysis, liquid-liquid extraction, and the application of ionic liquids in enhanced oil recovery. His scholarly influence is evidenced by a Google Scholar h-index of 36 and over 4,400 citations. In addition to his academic duties, he serves on the editorial boards of several scientific journals and is an editor for the Journal of the Iranian Chemical Society.

Profile

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Education

Professor Saien earned his B.Sc. in Chemical Engineering from Amir Kabir University in 1984, followed by an M.Sc. in 1991 from Tehran University. He completed his Ph.D. in Chemical Engineering at the University of Bradford in the United Kingdom in 1996. This strong academic foundation laid the groundwork for his later breakthroughs in interfacial chemistry and environmental engineering. His doctoral and postdoctoral work set the tone for his life-long dedication to research and academic leadership.

Experience

Over the years, Professor Saien has taught an extensive array of undergraduate and graduate courses, including Industrial Chemistry, Chemical Reaction Engineering, Petrochemistry, and Advanced Transport Phenomena. He has over 40 years of teaching experience and has supervised 13 Ph.D. and 54 M.Sc. theses, with six Ph.D. students currently under his supervision. He has also held numerous academic positions such as Dean of Faculty, Director of the Applied Chemistry Department, and Executive Manager of national seminars, further amplifying his impact on institutional growth and scientific excellence.

Research Interest

Professor Saien’s research interests are anchored in pollutant degradation, interfacial tension dynamics, and the thermodynamics of liquid-liquid systems. He has extensively explored photocatalytic and solar-driven processes for wastewater treatment, chemical-enhanced oil recovery using advanced surfactants, and the role of ionic liquids in modifying interfacial properties. His recent works include green and sustainable chemical approaches involving deep eutectic solvents and metal-organic frameworks, with practical applications in petroleum and environmental industries.

Award

Professor Saien’s dedication to scientific advancement has earned him several prestigious honors. Notably, he was recognized as the Distinguished Researcher in Applied Chemistry by the Iranian Chemical Society in 2016. He has been repeatedly awarded as a top university researcher and educator in applied chemistry. In 2023, he received national distinction from the Iranian Ministry of Science, Research, and Technology as one of the country’s outstanding academic staff members. These accolades reflect his substantial contributions to both national and international scientific communities.

Publication

Professor Saien has authored over 140 peer-reviewed journal articles. A selection of his impactful publications includes:

  1. Saien J., Slater M.J. (1999). “A possible approach to improving rotating disc contactor design…” Chemical Engineering Journal, 75, cited by 60 articles.

  2. Saien J., Soleymani A.R. (2007). “Degradation and mineralization of Direct Blue 71…” Journal of Hazardous Materials, 144, cited by 180 articles.

  3. Saien J., Nejati H. (2007). “Enhanced photocatalytic degradation of pollutants…” Journal of Hazardous Materials, 148, cited by 160 articles.

  4. Saien J., Mesgari Z. (2017). “Photocatalytic degradation of methyl orange…” Applied Organometallic Chemistry, 31, cited by 90 articles.

  5. Saien J., Kharazi M. (2022). “Trends offered by ionic liquid-based surfactants…” Separation and Purification Reviews, cited by 45 articles.

  6. Saien J., Bahiraei M. (2023). “A green hydrophobic deep eutectic solvent for extraction of phenol…” Scientific Reports, 13, cited by 20 articles.

  7. Saien J., Shokri B., Kharazi M. (2024). “Effective synergistic action of benzimidazolium nano Gemini ionic liquid…” ACS Omega, 9, cited by 12 articles.

Conclusion

Professor Javad Saien exemplifies academic rigor, research excellence, and institutional leadership. His decades-long contributions to chemical engineering have addressed critical industrial and environmental challenges using innovative, sustainable methods. His multidisciplinary approach, combining chemical thermodynamics, catalysis, and process optimization, positions him as a leading figure in applied chemistry. As a mentor, educator, and innovator, Professor Saien continues to inspire future generations of engineers and researchers, making him an outstanding candidate for any prestigious academic award.

Jingye Liu | Future of Fossil Fuels and Energy Transition | Best Researcher Award

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Dr. Jingye Liu | Future of Fossil Fuels and Energy Transition | Best Researcher Award

Doctoral Student at China University of Mining and Technology (Beijing), China

Jingye Liu is a promising early-career scholar in the field of management science and engineering with a focus on energy systems and supply chain security. Currently pursuing his doctoral studies at the School of Management, China University of Mining and Technology (Beijing), Liu demonstrates a strong commitment to addressing critical issues in global energy supply chains. His research integrates complex quantitative models and real-world policy relevance, contributing meaningful insights into China’s crude oil security strategies. Despite being at the early stages of his academic journey, Liu has already authored several influential publications in prestigious journals and is actively engaged in collaborative, policy-driven research that tackles geopolitical energy challenges.

Profile

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Education

Jingye Liu is undertaking a Ph.D. in Management Science and Engineering at the China University of Mining and Technology (Beijing), which commenced in September 2023 and is expected to conclude in June 2027. Under the supervision of Professor Rijia Ding, his doctoral work is rooted in multidisciplinary methodologies, combining systems engineering, energy economics, and data-driven decision-making. His academic foundation supports an applied approach to analyzing the energy sector, particularly focused on crude oil supply chain dynamics and national energy security frameworks.

Experience

Although still a Ph.D. candidate, Liu has accumulated substantial experience through collaborative academic research and publication efforts. Working alongside faculty and other researchers, he has been integrally involved in national-level studies evaluating the structure and vulnerabilities of China’s energy systems. His role often includes constructing evaluation models, analyzing large datasets, and interpreting policy implications based on empirical outcomes. Through his research, Liu has developed a nuanced understanding of strategic petroleum reserves, maritime logistics, and risk mitigation strategies. His capacity for teamwork, quantitative analysis, and strategic thinking has earned him recognition among peers and mentors alike.

Research Interest

Jingye Liu’s primary research interests lie in the areas of energy policy, supply chain security, and risk assessment in the context of geopolitical and domestic variables. He is particularly invested in exploring the vulnerabilities and optimization strategies within China’s crude oil supply chain. His work involves employing life-cycle analysis, DEA-like models, and system dynamics to evaluate security performance and provide evidence-based recommendations. Liu is also interested in renewable energy integration, international energy cooperation, and the development of early-warning systems for energy risk monitoring, aligning with global efforts toward sustainable and resilient energy infrastructures.

Award

While still building his academic career, Jingye Liu has earned early recognition through participation in national research projects and contribution to high-impact publications. His co-authored article in Energy Strategy Reviews, a leading journal in energy policy and strategy, stands as a testament to his growing influence in the field. Though no formal awards are listed in the resume, his selection to work on national-level energy risk evaluation projects reflects a form of institutional acknowledgment and academic trust that reinforces the merit of his contributions.

Publication

Jingye Liu has published impactful research in peer-reviewed journals, notably contributing to the following article:

Accessing the security of crude oil supply chain: The case of China, published in Energy Strategy Reviews, Volume 59, May 2025 (Cited by: [data not specified]). Co-authored with Fengqi Guo, Ying Shi, Rijia Ding, and Zhen Chen, this study presents a comprehensive life-cycle risk assessment model to evaluate China’s crude oil supply chain from 2012 to 2022.

The article offers policy recommendations to mitigate upstream vulnerabilities and enhance national energy resilience through expanded strategic reserves and maritime autonomy.

Although this is his most prominently documented publication, Liu is actively engaged in research that is expected to yield further high-quality outputs, reinforcing his academic trajectory and potential impact on the field.

Conclusion

Jingye Liu represents the next generation of researchers committed to securing global and national energy systems through rigorous analytical methods and policy-relevant research. His doctoral journey is already marked by meaningful contributions, including a major journal publication and active participation in strategic research collaborations. With a foundation in management science and engineering and a focus on real-world energy challenges, Liu is well-positioned to contribute significantly to academic and policy discussions in the coming years. His nomination for this award is supported by his academic rigor, innovative research focus, and evident potential to shape the future of energy system analysis and management.

Rahim Zahedi | Carbon Capture, Utilization, and Storage | Best Researcher Award

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Assist. Prof. Dr. Rahim Zahedi | Carbon Capture, Utilization, and Storage | Best Researcher Award

Faculty member at University of Tehran, Iran

Rahim Zahedi is an Assistant Professor in the Department of Energy Governance at the University of Tehran, Iran. He holds a PhD in Energy Systems Engineering, specializing in Energy Modeling and Life Cycle Assessment (LCA), from the University of Tehran. Zahedi has been a leader in the field of energy systems, winning multiple prestigious awards, including the 2023 JTACC-V4 Young Scientist Award and the 2024 Alborz Prize (Iranian Nobel Prize). His work has focused primarily on energy modeling, sustainability, and energy optimization, and he has made significant contributions to the study of renewable energy and its environmental impacts.

Profile

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Education

Zahedi’s academic journey began with a BSc in Mechanical Engineering from Iran University of Science and Technology, followed by an MSc in Energy Systems Engineering from the same institution. He earned his PhD in Energy Systems Engineering from the University of Tehran, where his doctoral thesis focused on the sustainable optimization of energy systems. He was ranked first in the PhD entrance exam in energy systems engineering in Iran in 2020, highlighting his exceptional academic potential. His postdoctoral research, focusing on thermal storage systems, is supervised by Dr. Abolfazl Ahmadi at the Iran University of Science and Technology.

Experience

Zahedi currently serves as an Assistant Professor at the University of Tehran. He has also contributed to several significant projects involving renewable energy technologies, thermal systems, and environmental sustainability. His work at the university has included the supervision of graduate-level courses in renewable energy sources, carbon capture technologies, and energy systems in buildings. His research has had a broad impact, including publications in top-tier journals and presentations at leading international conferences. Zahedi has also earned recognition as a top researcher, both nationally and globally, for his work on optimizing energy systems and reducing environmental impacts.

Research Interests

Rahim Zahedi’s research interests lie in the intersection of renewable energy, environmental sustainability, and energy optimization. He has worked extensively on the development and optimization of hybrid energy systems, carbon capture technologies, and life cycle assessment (LCA) methodologies. His research has involved innovative solutions to reduce the environmental impact of energy systems, particularly in the areas of wind and solar energy, microalgae cultivation for carbon capture, and the integration of renewable energy technologies in building systems. Zahedi’s work on thermal storage and optimization of energy systems has received widespread recognition in academic and professional circles.

Awards

Zahedi has received numerous accolades for his outstanding research. He was awarded the 2023 JTACC-V4 Young Scientist Award, recognizing him as the top young scientist worldwide in the field of thermal sciences. In 2024, he was honored with the Alborz Prize, often considered the Iranian equivalent of the Nobel Prize, for his contributions to energy research. Additionally, he has received the National Renewable Energy Award and the national best young researcher award in energy, alongside various other recognitions for his academic excellence. His article on energy systems modeling was named the most-cited paper in the Energy Science & Engineering journal from January 2021 to December 2023.

Publications

Zahedi has published over 100 ISI-indexed papers on energy systems, with a focus on optimization, sustainability, and environmental impact. Some of his notable publications include:

Zahedi, R., Ahmadi, A., & Sadeh, M. (2021). “Investigation of the load management and environmental impact of the hybrid cogeneration of the wind power plant and fuel cell,” Energy Reports (IF=4.94).

Zahedi, R., Ahmadi, A., & Dashti, R. (2021). “Energy, exergy, exergoeconomic and exergoenvironmental analysis and optimization of quadruple combined solar, biogas, SRC and ORC cycle with methane system,” Renewable and Sustainable Energy Reviews (IF=16.8).

Zahedi, R., Moosavian, F., & Hajinezhad, A. (2021). “The economic, environmental and social impact of carbon tax for Iran: A computable general equilibrium analysis,” Energy Science and Engineering (IF=4.04).

Zahedi, R., Daneshgar, S., & Ghorbani, M. (2021). “Potential measurement of Iran’s western regional wind energy using GIS,” Journal of Cleaner Production (IF=11.07).

Zahedi, R., Maghzian, A., & Aslani, A. (2021). “Direct Air CO2 Capture Using Microalgae: Data Mining Analysis,” Energy Reports (IF=4.94).

Conclusion

Rahim Zahedi’s academic and research career has made significant contributions to the field of energy systems engineering, particularly in the areas of renewable energy, energy optimization, and environmental sustainability. His innovative work in energy modeling and life cycle assessment has helped advance the understanding of sustainable energy practices and solutions. His numerous awards, including the prestigious Alborz Prize, reflect the global recognition of his research. Zahedi continues to inspire the next generation of researchers and engineers with his dedication to addressing the world’s energy and environmental challenges.

Gedefaw Mebratie | Future of Fossil Fuels and Energy Transition | Best Researcher Award

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Mr. Gedefaw Mebratie | Future of Fossil Fuels and Energy Transition | Best Researcher Award

Edicator and PhD Student at Mekdela Amba University and Bahir Dar University, Ethiopia

Gedefaw Mebratie is a passionate academic and researcher in the field of physics, with a focused interest in solid-state physics and superconductivity. With a strong commitment to education and scientific advancement, he has built a notable career combining teaching, research, and scholarly publication. Currently serving as a lecturer at Bahir Dar University and pursuing his PhD, Gedefaw integrates his academic expertise with practical research applications, aiming to contribute to the growing body of knowledge in advanced materials and their industrial and medical applications.

Profile

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Education

Gedefaw began his academic journey with a Bachelor of Science in Physics from Debre Markos University, where he developed a solid foundation in theoretical physics. He further specialized in solid-state physics by earning a Master of Science from Dilla University, where his thesis examined the interplay of spin density wave and superconductivity in SrFe-Ni-As-based superconductors, culminating in a published paper. Currently, he is a PhD candidate at Bahir Dar University, conducting advanced research in superconductivity and nanostructured materials. His doctoral training has deepened his knowledge of material science, quantum mechanics, and computational modeling.

Experience

With nine years of teaching experience, Gedefaw has consistently demonstrated his commitment to academic excellence and student development. He began his professional teaching career at Dilla Education College before joining Mekdela Amba University, where he contributed significantly to curriculum development and student mentorship. Since then, he has served as a lecturer at Bahir Dar University, where he teaches undergraduate and graduate-level physics courses while pursuing his doctoral studies. His academic work includes designing course materials, mentoring students, engaging in collaborative research, and contributing to institutional development through outreach and grant writing.

Research Interest

Gedefaw’s primary research interests lie in the theoretical and computational study of superconductivity, magnetism, and the development of nanostructured materials. His work includes exploring the interactions between antiferromagnetism and superconductivity in iron-based superconductors using two-band models. He also investigates the synthesis and characterization of nanomaterials for their applications in electronics, photonics, energy storage, biomedicine, agriculture, and environmental sciences. His interdisciplinary approach merges fundamental physics with practical applications, bridging gaps between theoretical models and real-world technology.

Awards

Throughout his academic journey, Gedefaw has been recognized for his dedication and scholarly contributions. While formal accolades are under process, his appointment as a reviewer for reputed journals in physics stands as a testament to his academic reputation and critical expertise in the field. His participation in local and international conferences also highlights his role as an emerging contributor to the global scientific community.

Publications

Gedefaw Mebratie has co-authored several impactful scientific papers that reflect the breadth of his research contributions. Among his key publications:

Theoretical study of the interplay of spin density wave and superconductivity in nickel substitution of the strontium–iron–arsenide (SrFe₂−xNixAs₂) superconductor in a two-band model (2023, cited in multiple solid-state research studies).

Synthesis, Characterization, and Measurement of New 1144-Type Iron-Based Superconductors: A Systematic Review (2024, published in a physics-focused materials journal).

The interplay of antiferromagnetism and superconductivity in Sr₁−ₓNa₄₆₅Fe₂As₂ superconductor: A theoretical study (2024).

Interplay of superconductivity and magnetism in the Fe₁₊yTe₁₋xSex iron-based superconductor: A theoretical study (2024).

Nanoparticle therapy for antibiotic-resistant bacteria: current methods and prospects (2023, interdisciplinary paper cited in nanomedicine research).

Characterization and fabrication of p-Cu₂O/n-CeO₂ nanocomposite for the application of photocatalysis (2024).

Green-synthesised silver nanoparticles: antibacterial activity and mechanisms of action (2024, extensively cited in studies addressing multidrug-resistant pathogens).

Each of these publications contributes to key developments in solid-state physics, superconductivity, and nanotechnology.

Conclusion

Gedefaw Mebratie exemplifies the qualities of an academic leader through his extensive research, dedicated teaching, and collaborative scientific efforts. His work in superconductivity and nanostructured materials positions him as a rising expert in these fields, with practical applications that span healthcare, renewable energy, electronics, and environmental science. His pursuit of innovation, combined with his role in nurturing the next generation of physicists, underscores his suitability for academic recognition and continued support. With a clear vision for future research and academic contributions, Gedefaw remains committed to pushing the boundaries of science and education.