Gessesse Kebede Bekele | Bioremediation | Best Researcher Award

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Mr. Gessesse Kebede Bekele | Bioremediation | Best Researcher Award

Lecturer and Researcher | Addis Ababa Science and Technology University | Ethiopia

Mr. Gessesse Kebede Bekele is a lecturer and researcher in the Department of Biotechnology at Addis Ababa Science and Technology University, Ethiopia. He holds a Master of Science in Microbial Cellular and Molecular Biology from Addis Ababa University and is pursuing a doctoral degree in Industrial Biotechnology at AASTU. His research focuses on industrial, environmental, and food biotechnology, with emphasis on microbial diversity, biodegradation, and biotechnological applications in extreme environments. He has authored numerous scientific publications and led several funded projects, contributing to advancements in microbial ecology, fermentation, environmental bioremediation, and applied biotechnology in Ethiopia.

Publication Profile

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Academic Background

Mr. Gessesse Kebede Bekele is a lecturer and researcher in the Department of Biotechnology at Addis Ababa Science and Technology University in Ethiopia. He earned a Master of Science in Microbial Cellular and Molecular Biology with specialization in Applied Microbiology from Addis Ababa University and is currently pursuing a doctoral degree in Industrial Biotechnology at AASTU. His academic journey reflects a strong foundation in biotechnology and microbiology, which has guided his research interests in microbial diversity, biodegradation, fermentation, and applied biotechnology. His educational background provides a solid base for his contributions to industrial, environmental, and food biotechnology.

Professional Experience

Mr. Gessesse Kebede Bekele serves as a lecturer and researcher in the Department of Biotechnology at Addis Ababa Science and Technology University in Ethiopia. His professional work is centered on industrial, environmental, and food biotechnology, with a strong focus on microbial diversity, hydrocarbon biodegradation, and functional microbial applications in extreme environments. He has contributed to numerous scientific publications and successfully led funded research projects at both national and institutional levels. Through his professional experience, he has advanced microbial ecology, fermentation, secondary metabolites, and environmental bioremediation, making valuable contributions to the scientific and technological development of biotechnology in Ethiopia.

Awards and Honors

Mr. Gessesse Kebede Bekele has earned recognition for his dedicated contributions to the field of biotechnology and applied microbiology. His research excellence has been acknowledged through institutional support and competitive national research grants, which highlight the trust placed in his expertise and leadership. His publications in reputable journals and his role in advancing microbial applications have positioned him as a respected figure in the scientific community. Through his commitment to innovation and problem-solving in industrial, environmental, and food biotechnology, he continues to gain honors that reflect his impact on both academic and applied scientific advancement.

Research Focus

Mr. Gessesse Kebede Bekele concentrates his research on industrial, environmental, and food biotechnology with a special emphasis on microbial applications. His work explores microbial diversity in extreme environments, biodegradation of hydrocarbons, and the functional characterization of microbial communities in ecosystems such as soda lakes. He also investigates fermentation processes, secondary metabolites, and bioethanol production using microbial resources. His studies aim to address environmental challenges through bioremediation and promote sustainable industrial practices. By integrating applied microbiology with biotechnology, his research contributes to innovative solutions for ecological preservation, resource utilization, and advancements in microbial science and technology.

Publication Top Notes

Factors influencing the bacterial bioremediation of hydrocarbon contaminants in the soil: mechanisms and impacts
Year: 2021 | Cited by: 217

Isolation and characterization of urease‐producing soil bacteria
Year: 2021 | Cited by: 67

Isolation and Characterization of Diesel‐Degrading Bacteria From Hydrocarbon‐Contaminated Sites, Flower Farms, and Soda Lakes
Year: 2022 | Cited by: 55

Optimization of bioethanol production from sugarcane molasses by the response surface methodology using Meyerozyma caribbica isolate MJTm3
Year: 2023 | Cited by: 32

Isolation and characterization of bioethanol producing wild yeasts from bio-wastes and co-products of sugar factories
Year: 2022 | Cited by: 23

Conclusion

Mr. Gessesse Kebede Bekele is a lecturer and researcher in the Department of Biotechnology at Addis Ababa Science and Technology University in Ethiopia. His academic journey includes a master’s degree in microbial cellular and molecular biology and ongoing doctoral studies in industrial biotechnology. His research focuses on microbial diversity, hydrocarbon biodegradation, and food biotechnology. With impactful publications, funded projects, and recognition for advancing microbial applications, he has established himself as a promising scientist contributing to environmental and industrial sustainability.

 

Morteza Habibi | Energy | Best Researcher Award

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Assoc. Prof. Dr. Morteza Habibi | Energy | Best Researcher Award

Assoc. Prof. Dr. Morteza Habibi | Amirkabir University of Technology | Iran

Dr. Morteza Habibi is an Associate Professor of Fusion Energy at Amirkabir University of Technology, Tehran, Iran, specializing in plasma physics, fusion engineering, and plasma-material interaction. Since earning his Ph.D. in Fusion Engineering, he has led research in plasma focus devices, X-ray sources, and advanced coating technologies. With over 15 ISI-indexed publications, multiple conference papers, patents, and authored books, he has significantly contributed to Iran’s fusion research capacity. He has also held key academic roles, including Deputy of Research Affairs and Head of the Plasma Engineering Group. His work bridges experimental physics, device development, and innovative surface engineering.

Academic Profile

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Educational Background

Dr. Morteza Habibi holds a Ph.D. in Fusion Engineering and Plasma Physics from Amirkabir University of Technology, Tehran, Iran. His academic focus centers on plasma-material interaction, fusion energy systems, and the development of plasma-based technologies. Throughout his career, he has combined theoretical knowledge with experimental practice, contributing to the design and operation of advanced plasma focus devices. His education laid the foundation for a productive research career, marked by numerous scientific publications, technical innovations, and authored books. Dr. Habibi’s educational background continues to support his contributions to plasma engineering and his leadership in academic and research initiatives.

Professional Experience

Dr. Morteza Habibi has over 15 years of academic and research experience in the field of fusion energy and plasma physics. He began his career as an Assistant Professor at Amirkabir University of Technology in 2008 and was promoted to Associate Professor in 2015. He has served in several key administrative roles, including Deputy of Research Affairs (2014–2019) and Deputy of Graduate and Research Affairs (2021–2023). He also led the Plasma Engineering Group from 2019 to 2021. His professional work focuses on plasma diagnostics, fusion devices, X-ray sources, and surface coating technologies through plasma applications.

Awards and Honors

Dr. Morteza Habibi has been recognized for his significant contributions to plasma physics and fusion engineering through multiple academic and technical honors. His innovative work led to several national patents, including the development of a miniature pulsed plasma generator and a switching repetitive power supply. His translation and authorship of key plasma physics books have also been acknowledged within academic circles. As a dedicated researcher and educator, he has received institutional commendations for his leadership roles and scientific achievements. His efforts have strengthened Iran’s capabilities in fusion research and advanced plasma technology development.

Research Focus

Dr. Morteza Habibi’s research is centered on fusion energy, plasma physics, and plasma-material interaction, with a strong emphasis on experimental and applied plasma technologies. He has extensively worked on the design and operation of plasma focus devices, hard and soft X-ray generation, and high-energy ion beam applications. His studies also cover surface modification, plasma diagnostics, and the development of advanced coating techniques for industrial and energy applications. Through numerous journal publications, conference presentations, and technical innovations, Dr. Habibi’s research contributes to the advancement of fusion science and the development of efficient plasma-based engineering solutions.

Publication Top Notes

Improvement of corrosion and electrical conductivity of 316L stainless steel as bipolar plate by TiN nanoparticle implantation using plasma focus
Year: 2012 | Cited by: 52

High-voltage charging power supply based on an LCC-type resonant converter operating at continuous conduction mode
Year: 2019 | Cited by: 45

Experimental study of current discharge behavior and hard X-ray anisotropy by APF plasma focus device
Year: 2009 | Cited by: 43

Angular distribution of argon ions and X-ray emissions in the APF plasma focus device
Year: 2011 | Cited by: 32

TiCrN-TiAlN-TiAlSiN-TiAlSiCN multi-layers utilized to increase tillage tools useful lifetime
Year: 2019 | Cited by: 31

Enhanced electrical conductivity of two layers AlN–TiN coating on SS316L as bipolar plate using plasma focus device
Year: 2016 | Cited by: 31

A novel method for observation by unaided eyes of nitrogen ion tracks and angular distribution in a plasma focus device using 50 Hz–HV electrochemically-etched polycarbonate detectors
Year: 2012 | Cited by: 31

Conclusion

Dr. Morteza Habibi is a distinguished researcher in fusion engineering and plasma physics, with a focus on plasma-material interactions and plasma focus devices. As an Associate Professor at Amirkabir University of Technology, he has held key leadership roles and contributed extensively to experimental plasma research, publishing widely and securing multiple patents. His work on the Amirkabir Plasma Focus device has advanced national capabilities, making him a strong candidate for the Best Researcher Award based on innovation, leadership, and scientific impact.

 

 

Yuming Yuan | Renewable Energy | Best Researcher Award

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Mr. Yuming Yuan | Renewable Energy | Best Researcher Award

Assistant Researcher at South China University of Technology, China

Dr. Yuan Yuming  is an Assistant Researcher at the School of Civil Engineering and Transportation, South China University of Technology . He earned his Ph.D. in Engineering from Harbin Engineering University in 2023, with international training at City University London . Specializing in wind turbine wake dynamics , he has led and contributed to multiple high-impact research projects funded by the NSFC and Guangdong Province, focusing on wake blockage effects and hybrid wake modeling. Dr. Yuan holds 5 patents related to wind energy innovation  and has published 4 SCI papers in top-tier journals such as Ocean Engineering. His work on hybrid wake methods has demonstrated up to 15.12% power gains in downstream turbines, significantly advancing offshore wind energy efficiency . He actively collaborates with renowned scholars and contributes to national labs, making him a rising talent in renewable energy research 🌱🔬.

Professional Profile

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🎓Academic Background

Dr. Yuan Yuming is currently serving as an Assistant Researcher at the School of Civil Engineering and Transportation, South China University of Technology. He earned his Doctorate in Engineering from Harbin Engineering University in December 2023, where he focused on ship and wind turbine engineering under the supervision of Professor Chao Wang. During his doctoral studies, he completed a joint training program at City University London, working with Professor Shiqiang Yan on numerical wave solvers. Dr. Yuan also holds a Master’s degree in Engineering from Harbin Engineering University and a Bachelor’s degree from Wuhan University of Technology. His research primarily explores wind turbine wake dynamics, wake blockage effects, and hybrid modeling techniques. He has led multiple nationally funded projects, holds five patents, and has published four SCI-indexed articles in reputable journals. His innovations have shown measurable performance gains in wind energy systems, establishing him as a promising figure in renewable energy research.

💼Professional Experience

Dr. Yuan Yuming is an Assistant Researcher at the School of Civil Engineering and Transportation, South China University of Technology, where he focuses on advanced wind energy systems and fluid dynamics. His professional journey includes leadership in nationally funded research projects such as the National Natural Science Foundation of China (NSFC) Youth Science Fund and the Guangdong Province General Program. His expertise lies in the study of wind turbine wake interactions, hybrid wake modeling, and blockage effects within turbine arrays. Dr. Yuan also contributes to a key consultancy project under the State Key Laboratory of Subtropical Architecture and Urban Science, where he researches dynamic characteristics of kinetic energy recovery systems. He has international collaborative experience through joint training at City University London and works closely with global experts in wave and wake modeling. With five patents and several high-impact publications, Dr. Yuan continues to drive innovation in renewable energy technologies.

🏅Awards and Honors

Dr. Yuan Yuming has been recognized for his contributions to renewable energy research through various prestigious awards and research grants. He is the recipient of the National Natural Science Foundation of China (NSFC) Youth Science Fund Project, which supports his work on wake blockage mechanisms in wind turbine arrays. Additionally, he was awarded a research grant under the General Program of the Natural Science Foundation of Guangdong Province for his investigation into wake evolution mechanisms. These competitive funding programs highlight the scientific merit and innovation in Dr. Yuan’s work. He also plays a key role in a major project funded by the State Key Laboratory of Subtropical Architecture and Urban Science, focusing on wind-wave integrated energy recovery systems. His research achievements, including patented technologies and publications in leading SCI journals, have positioned him as an emerging expert in wind energy engineering, earning recognition from both national institutions and international collaborators.

🔬Research Focus

Dr. Yuan Yuming’s research is centered on the advancement of wind energy systems, with a particular focus on wind turbine wake dynamics and energy efficiency optimization. His work explores the complex interactions between turbines in wind farms, especially the in-field blockage effect, which influences power output and overall farm performance. He has developed a hybrid wake modeling method that combines potential and viscous flow theories to accurately simulate wake behavior, particularly in offshore floating wind turbines. This method has been experimentally and numerically validated, demonstrating significant performance improvements, including a 15.12% power gain for downstream turbines. Dr. Yuan’s research also includes numerical simulation techniques, aeroelastic analysis, and the design of wind-wave energy recovery systems. His innovative approaches have led to five patents and multiple high-impact journal publications. His ongoing projects, funded by national and provincial science foundations, aim to further enhance the reliability and efficiency of renewable energy technologies.

📖Publication Top Notes

Analysis of the blade aeroelastic effect on the floating offshore wind turbine wake in a focusing wave with a hybrid model
Year: 2023

A hybrid wake method for simulating yaw tandem wind turbine
Year: 2023

Experimental and numerical validation of a hybrid method for modelling the wake flow of two in-line wind turbines
Year: 2023

A hybrid method for modelling wake flow of a wind turbine
Year: 2023

Numerical simulation and performance analysis of in-field blockage effect between wind turbines
Year: 2023

⚙️Conclusion

Dr. Yuan Yuming is a highly qualified candidate for the Best Researcher Award, particularly in the category of emerging researchers in renewable energy and engineering innovation. With a strong academic foundation including a Ph.D. in Engineering from Harbin Engineering University and international research experience at City University London, he has demonstrated outstanding research capabilities. His specialization in wind turbine wake dynamics has led to the development of an innovative hybrid wake method, validated through experimental and numerical analysis. He has served as PI/Co-PI on nationally funded projects, holds five patents in wind energy technology, and has published four SCI-indexed papers in reputable journals. His work has shown significant real-world impact, including a 15.12% power gain in downstream turbines, and he actively contributes to national laboratory research. His collaborations with global experts and leadership in technical innovation further affirm his suitability for this prestigious recognition.

 

 

Sergio Santaeufemia Sánchez | Biotechnology | Best Researcher Award

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Dr. Sergio Santaeufemia Sánchez | Biotechnology | Best Researcher Award

Postdoctoral Researcher at Technical University of Munich Human Spaceflight Technology, Germany

Sergio Santaeufemia Sánchez is a postdoctoral researcher at the Technical University of Munich (TUM) in the Professorship of Human Spaceflight Technology 🚀. With a PhD in Biotechnology from the University of A Coruña 🧪, his work bridges life sciences and aerospace engineering. Sergio investigates microalgae-based life support systems for future space habitats 🌿🌕, contributing to oxygen production, water purification, and edible biomass cultivation. His interdisciplinary expertise spans microbiology, biotechnology, and space systems engineering 🌌. He also supervises students and teaches courses on human spaceflight technology and life support systems at TUM 🎓.

Publication Profile

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Academic Background

Sergio earned his PhD in Biotechnology from the University of A Coruña (UDC), Spain , specializing in microalgae-based bioremediation 🌊. His doctoral research focused on pollutant removal using extremophilic microalgae under challenging environmental conditions. During his academic journey, he gained advanced knowledge in molecular biology, photosynthesis, and microbial stress responses 🧫. This foundation paved the way for his interdisciplinary shift to aerospace research at the Technical University of Munich . He has also been trained in space systems, photobioreactor design, and life support engineering to support long-term human missions in space 🛰️.

Professional Experience

Sergio has held research positions in Spain,Poland , and Germany, contributing to biotechnology and aerospace engineering. He began at the Centre for New Technologies (CeNT), researching microalgae under extreme conditions 🔬. At the Technical University of Munich, he applies his biotechnology background to develop photobioreactors for astronaut life support 🚀. His international collaborations include partners from Italy and the USA. Sergio has managed and contributed to multiple European-funded projects (HORIZON-EIC, BIODIVERSA+, NCN) 💡. He also supervises students, leads experiments, and organizes outreach events like Space Day Ottobrunn 🌍.

Awards and Honors

Sergio has been part of numerous prestigious European research projects, including HORIZON-EIC and BIODIVERSA+ . He received NCN MINIATURA and OPUS research grants in Poland for his pioneering work on extremophilic microalgae 🧪. His studies have appeared in high-impact journals and gained international recognition 🌐. Sergio co-organized key space events like the Space Station Design Workshop (SSDW) and Space Day Ottobrunn 🛰️. His work has led to over 330 citations, an h-index of 8, and 10 peer-reviewed publications 📚. His contributions highlight his excellence in combining space research and biotechnology 🚀🌱.

Research Focus

Sergio focuses on extremophilic microalgae to support life in space through oxygen production, water purification, and food generation 🌿💧🍽️. He explores their stress adaptation mechanisms to enhance bioremediation techniques on Earth and in extraterrestrial environments 🌍🌕. His research integrates transcriptomics, photobioreactor design, and microbial ecology, targeting space applications such as lunar or Mars habitats 🪐. He is currently involved in designing space-compatible life support systems and experiments for parabolic flights and lunar simulations 🚀. Sergio’s interdisciplinary approach bridges biotechnology, life sciences, and aerospace engineering to push the boundaries of human spaceflight 🌌.

Publication Top Notes

📄 Bioremediation of oxytetracycline in seawater by living and dead biomass of the microalga Phaeodactylum tricornutum

📅 Year: 2016 | 📚 Journal of Hazardous Materials | 🔁 Cited by: 109 | 🧪🌊

📄 Biosorption of ibuprofen from aqueous solution using living and dead biomass of the microalga Phaeodactylum tricornutum

📅 Year: 2018 | 📚 Journal of Applied Phycology | 🔁 Cited by: 62 | 💊🌱

📄 Bioaugmentation as a strategy to enhance nutrient removal: Symbiosis between Chlorella protothecoidesand Brevundimonas diminuta

📅 Year: 2018 | 📚 Bioresource Technology Reports | 🔁 Cited by: 36 | 🧫💧

📄 Light intensity affects the mixotrophic carbon exploitation in Chlorella protothecoides: consequences on microalgae-bacteria based wastewater treatment

📅Year: 2018 | 📚Water Science and Technology | 🔁Cited by: 20 | 🌞💡

Conclusion

Dr. Sergio Santaeufemia Sánchez is an outstanding candidate for the Best Researcher Award, distinguished by his innovative and interdisciplinary work at the intersection of biotechnology, environmental science, and space technology. With a strong portfolio of high-impact international research projects (e.g., HORIZON-EIC, BIODIVERSA+), he has advanced novel applications of extremophile microalgae for bioremediation and life support systems in space missions. Despite being at an early stage in his career, he has achieved a notable h-index of 8 with 10 SCI-indexed publications, often as first or leading author, reflecting both academic impact and leadership. His collaborations span leading global institutions across diverse fields such as biology, physics, and aerospace engineering, demonstrating his capacity for cross-disciplinary integration. Dr. Santaeufemia’s work directly addresses global environmental challenges and contributes to the future of human spaceflight, while his supervision of students and science outreach efforts highlight his commitment to education and public engagement.