Saheed Ganiyu | Geophysics | Best Researcher Award

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Dr Saheed Ganiyu | Geophysics | Best Researcher Award

Senior Lecturer, Federal University of Agriculture, Abeokuta, Nigeria, Nigeria

Dr. Ganiyu Saheed Adekunle is a Nigerian geophysicist and Senior Lecturer at the Federal University of Agriculture, Abeokuta. Born in Ibadan, he specializes in environmental geophysics, hydrogeology, and subsurface contamination studies. With a Ph.D. in Geophysics and multiple international training programs, Dr. Ganiyu has emerged as a leading researcher in groundwater quality and environmental monitoring using integrated geophysical and statistical techniques. He is known for his commitment to sustainable development through applied geophysics and has collaborated across multidisciplinary teams to address Nigeria’s critical water issues. His scholarly impact includes numerous high-ranking publications and peer-review roles with leading journals. Dr. Ganiyu has earned national and international recognition, including awards and funded training by ICTP in Italy. His work continues to drive academic excellence, innovation, and environmental resilience in the geosciences.

Profiles

🎓 Education

Dr. Ganiyu obtained his Ph.D. and M.Sc. in Physics (Geophysics) from the Federal University of Agriculture, Abeokuta, Nigeria, in 2015 and 2011 respectively. He earned a B.Sc. (Hons) in Physics from the same institution in 2005 and completed a specialized Diploma in Geophysics at the Abdus Salam ICTP, Italy, in 2007. His foundational studies began at Ikolaba High School, Ibadan, where he received his WASSC in 1995. His academic journey reflects a consistent dedication to Earth sciences and geophysics, with additional exposure to international research environments that have broadened his theoretical and practical understanding of environmental geophysics and data-driven groundwater assessments.

🏢 Professional Experience 

Dr. Ganiyu’s academic career spans over 15 years at the Federal University of Agriculture, Abeokuta. He has held positions including Senior Lecturer (2021–present), Lecturer I (2018–2021), Lecturer II (2015–2018), and Assistant Lecturer (2012–2015). His journey began as a Junior Research Fellow from 2009 to 2011. He has contributed to curriculum development, mentored students, and led geophysical research projects involving groundwater exploration, soil property analysis, and environmental pollution detection. His teaching portfolio includes geophysics, numerical methods, and Earth resource analysis. Known for his integration of field surveys with multivariate data analytics, he has applied his skills in real-world contexts such as landfill pollution studies and urban water quality monitoring in Nigeria’s major cities.

🔬 Research Focus 

Dr. Ganiyu’s research bridges applied geophysics, environmental monitoring, and hydrogeochemistry. His core interest lies in groundwater quality assessment using electrical resistivity imaging, multivariate statistical modeling, and geochemical techniques. He has advanced the understanding of leachate plume migration, heavy metal pollution, and water pipeline corrosion through field-based studies in urban Nigeria. His work contributes to solving real-world environmental challenges like aquifer contamination and soil degradation. His interdisciplinary collaborations span geology, civil engineering, and environmental science, driving forward sustainable development in water resource management. His approach blends classic geophysical methods with modern computational tools, offering holistic solutions to subsurface characterization and pollution mitigation.

📚 Publication Top Notes

  • Evaluation of seasonal variation of water quality using multivariate statistical analysis and irrigation parameter indices in Ajakanga area, Ibadan, Nigeria

    Citation:
    Ganiyu, S.A., Badmus, B.S., Olurin, O.T., & Ojekunle, Z.O. (2018). Applied Water Science, 8, 1–15.
    Cited by: 111
    Summary:
    This study evaluated seasonal fluctuations in groundwater quality using multivariate statistical tools. The analysis revealed contamination from both natural and anthropogenic sources and assessed suitability for irrigation through various indices.

  • Effects of industrialization on groundwater quality in Shagamu and Ota industrial areas of Ogun state, Nigeria

    Citation:
    Zacchaeus, O.O., Adeyemi, M.B., Adedeji, A.A., Adegoke, K.A., Anumah, A.O., et al. (2020). Heliyon, 6(7).
    Cited by: 81
    Summary:
    The work examined the effect of industrial growth on aquifer contamination. Physicochemical parameters and heavy metal concentrations exceeded WHO limits, highlighting public health risks.

  • Assessment of physicochemical characteristics of groundwater within selected industrial areas in Ogun State, Nigeria

    Citation:
    Ojekunle, Z.O., Adeyemi, A.A., Taiwo, A.M., Ganiyu, S.A., Balogun, M.A. (2020). Environmental Pollutants and Bioavailability, 32(1), 100–113.
    Cited by: 51
    Summary:
    Investigates how industrial waste affects groundwater quality, using pollution indices and multivariate methods to evaluate spatial variability and potential health risks.

  • Assessment of groundwater contamination around active dumpsite in Ibadan Southwestern Nigeria using integrated electrical resistivity and hydrochemical methods

    Citation:
    Ganiyu, S.A., Badmus, B.S., Oladunjoye, M.A., Aizebeokhai, A.P., Ozebo, V.C., et al. (2016). Environmental Earth Sciences, 75, 1–19.
    Cited by: 50
    Summary:
    Combines geophysical and hydrochemical data to delineate contamination plumes from dumpsites, identifying leachate impacts on surrounding aquifers.

  • Physico-chemical properties of soil samples and dumpsite environmental impact on groundwater quality in South Western Nigeria

    Citation:
    Badmus, B.S., Ozebo, V.C., Idowu, O.A., Ganiyu, S.A., Olurin, O.T. (2014). The African Review of Physics, 9.
    Cited by: 49
    Summary:
    Explores how open dumpsites alter soil and groundwater chemistry, particularly with heavy metals, suggesting significant ecological and health concerns.

  • Delineation of leachate plume migration using electrical resistivity imaging on Lapite dumpsite in Ibadan, Southwestern Nigeria

    Citation:
    Ganiyu, S.A., Badmus, B.S., Oladunjoye, M.A., Aizebeokhai, A.P., Olurin, O.T. (2015). Geosciences, 5(2), 70–80.
    Cited by: 47
    Summary:
    Utilizes 2D resistivity imaging to monitor leachate infiltration and migration, aiding waste management and groundwater protection strategies.

  • Upward continuation and reduction to pole process on aeromagnetic data of Ibadan Area, South-Western Nigeria

    Citation:
    Ganiyu, S.A., Badmus, B.S., Awoyemi, M.O., Akinyemi, O.D., Olurin, O.T. (2013). Earth Science Research, 2(1), 66.
    Cited by: 47
    Summary:
    Presents geophysical data enhancement techniques for mapping subsurface structures in Ibadan, contributing to mineral exploration.

  • Assessment of heavy metals contamination and associated risks in shallow groundwater sources from three different residential areas within Ibadan metropolis, southwest Nigeria

    Citation:
    Ganiyu, S.A., Oyadeyi, A.T., Adeyemi, A.A. (2021). Applied Water Science, 11(5), 81.
    Cited by: 46
    Summary:
    Analyzes contamination levels and calculates health risk indices for residents using groundwater with varying exposure levels to heavy metals.

  • Investigation of soil moisture content over a cultivated farmland in Abeokuta Nigeria using electrical resistivity methods and soil analysis

    Citation:
    Ganiyu, S.A., Olurin, O.T., Oladunjoye, M.A., Badmus, B.S. (2020). Journal of King Saud University-Science, 32(1), 811–821.
    Cited by: 25
    Summary:
    Combines geophysical surveys and soil testing to assess soil moisture distribution for agricultural planning.

  • Assessment of microbial and heavy metal contamination in shallow hand-dug wells bordering Ona River, Southwest Nigeria

    Citation:
    Ganiyu, S.A., Mabunmi, A.A., Olurin, O.T., Adeyemi, A.A., Jegede, O.A., Okeh, A. (2021). Environmental Monitoring and Assessment, 193(3), 126.
    Cited by: 24
    Summary:
    Focuses on waterborne pathogens and toxic metal levels near riverbanks, identifying health hazards and poor sanitation.

Conclusion

Dr. Ganiyu Saheed Adekunle is highly suitable for a Best Researcher Award. His rigorous academic output, domain relevance, reviewer roles, and international exposure position him as a key contributor to the field of environmental geophysics and water resource management in Nigeria and beyond.

Alok Wankar | Veterinary sciences | Best Academic Researcher Award

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Dr. Alok Wankar | Veterinary sciences | Best Academic Researcher Award

Assistant professor, College of veterinary and animal sciences parbhani, India

Dr. Alok Khemraj Wankar is a dedicated veterinary physiologist with over 15 years of academic and research experience in veterinary science. Currently serving as Assistant Professor at the College of Veterinary & Animal Sciences, Parbhani, Maharashtra, he specializes in heat stress physiology, climate change adaptation, and sustainable livestock production. With a PhD from the Indian Veterinary Research Institute (IVRI) and advanced degrees from MAFSU, Dr. Wankar has contributed significantly to understanding thermoregulation and metabolic responses in animals. His research, widely published and cited, has influenced policy and practice in animal husbandry under thermal stress. An accomplished scholar, he holds multiple fellowships, national awards, and is actively involved in mentoring postgraduate students and leading funded projects. Dr. Wankar is recognized not only for his academic excellence but also for his commitment to advancing animal welfare in the face of global climate challenges.

Profile

Google Scholar

🎓 Education

Dr. Alok Wankar holds a PhD in Veterinary Physiology from the Indian Veterinary Research Institute (2009–2012), where he studied physio-biochemical responses and gas emissions in buffaloes under thermal stress. Prior to this, he completed his Master of Veterinary Science (MVSc) from Nagpur Veterinary College, MAFSU, focusing on the impact of Neem leaf powder on broiler health and growth. His foundational veterinary training, the BVSc & AH (2001–2006), was also obtained from Nagpur Veterinary College. He recently acquired a Diploma in Veterinary Medicine from Alison Online (2024), enhancing his clinical and global perspective. Throughout his educational journey, Dr. Wankar emphasized interdisciplinary knowledge, including minors in nutrition, reproduction, livestock production, and pathology. This academic background has laid a strong foundation for his later work in heat stress physiology and sustainable animal farming. His education is both deep and broad, spanning traditional veterinary science and emerging climate-focused applications.

🧑‍🏫 Experience

Dr. Alok Wankar currently serves as an Assistant Professor at the College of Veterinary & Animal Sciences, Parbhani, since July 2015. Here, he teaches and mentors students while leading vital research projects in veterinary physiology. Before this, he worked briefly at the College of Veterinary & Animal Sciences, Hyderabad (May–July 2015), and from 2012–2014, held a faculty position at Khalsa College of Veterinary & Animal Sciences, Amritsar. His professional journey spans more than a decade of hands-on teaching, research, and curriculum development. Dr. Wankar is also a recognized Postgraduate Guide under MAFSU and has mentored several successful student theses. In all his roles, he has shown a consistent commitment to both academic excellence and practical applications, particularly in climate-related animal physiology. His professional network includes memberships in several national and international scientific societies, strengthening his collaborative impact across veterinary and environmental sciences.

🏅 Awards and Honors

Dr. Alok Wankar has been honored with multiple prestigious awards recognizing his academic and research excellence. Most recently, he received the Best Researcher Award from the DK International Research Foundation (2024) and the National Research Excellence Award from the Novel Research Academy (2023–24). His significant contributions to veterinary physiology have earned him Fellowships from the Scholars Academy & Scientific Society, Bose Science Society, and ISROSET. He also received the ICAR-IVRI Doctoral Fellowship (2009–2012), a highly competitive national recognition. As a Recognized PG Guide at MAFSU, he has helped shape the next generation of veterinary researchers. His work has been acknowledged by peers and institutions alike for its real-world impact, particularly in areas like heat stress physiology and sustainable animal farming. These accolades reflect his scholarly depth, leadership in research, and enduring commitment to the betterment of animal welfare through scientific innovation.

🔬 Research Focus

Dr. Alok Wankar’s research is centered on heat stress physiology, climate change, and animal adaptation, with an emphasis on sustainable food production and endocrine responses in livestock. His pioneering work explores how animals adapt to extreme environmental conditions, particularly focusing on physiological, biochemical, and metabolic markers. His studies in methane emission and nutrient digestibility under thermal stress contribute to global efforts in reducing greenhouse gas emissions from agriculture. With over 15 publications in peer-reviewed journals—some highly cited—Dr. Wankar has shaped the conversation around animal resilience in the face of climate volatility. He integrates environmental indices like the Temperature Humidity Index (THI) into his models, offering holistic insights into livestock health. His interdisciplinary approach combines traditional veterinary science with emerging themes in sustainability and climate resilience, making his work essential for policymakers, researchers, and practitioners looking to build climate-smart agricultural systems.

📘Publication Top Notes

1. Heat stress in dairy animals and current milk production trends, economics, and future perspectives: the global scenario

Authors: AK Wankar, SN Rindhe, NS Doijad
Journal: Tropical Animal Health and Production, 2021, Vol 53(1), Article 70
Cited by: 80
Summary:
This paper presents a comprehensive review of how heat stress negatively affects dairy animals’ physiology, milk production, and economics. The authors analyze current trends in global milk yield, climate-induced production losses, and forecast long-term impacts. It provides future directions for mitigating heat stress through genetic, environmental, and nutritional interventions, making it a cornerstone publication in climate adaptation for livestock systems.

2. Effect of simulated heat stress on digestibility, methane emission and metabolic adaptability in crossbred cattle

Authors: B Yadav, G Singh, A Wankar, et al.
Journal: Asian-Australasian Journal of Animal Sciences, 2016, Vol 29(11), pp. 1585
Cited by: 70
Summary:
This experimental study evaluates how simulated heat stress influences nutrient digestibility and methane emissions in crossbred cattle. It provides a critical link between environmental stress and greenhouse gas emissions, supporting sustainable livestock strategies by highlighting the role of thermal management in reducing methane output.

3. Thermoregulatory and adaptive responses of adult buffaloes during hyperthermia

Authors: AK Wankar, G Singh, B Yadav
Journal: Veterinary World, 2014, Vol 7(10), pp. 825–830
Cited by: 69
Summary:
This study explores how buffaloes regulate body temperature and adapt metabolically and behaviorally under hyperthermic conditions. It’s significant for understanding breed-specific heat adaptation, especially in tropical climates, with direct implications for animal welfare and productivity under rising temperatures.

4. Effect of Neem (Azadirachta indica) leaf powder supplementation on growth in broilers

Authors: A Wankar, RN Shirbhate, KB Bahiram, SA Dhenge, RA Jasutkar
Journal: Veterinary World, 2009, Vol 2(10)
Cited by: 51
Summary:
This research investigates the use of neem leaf powder as a natural feed supplement in broiler chickens. The findings show positive effects on growth performance, positioning neem as a sustainable, eco-friendly alternative to synthetic additives in poultry nutrition.

5. The use of infrared skin temperature measurements for monitoring heat stress in cattle

Authors: B Yadav, G Singh, A Wankar
Journal: Indian Journal of Dairy Science, 2017, Vol 70(1), pp. 1–5
Cited by: 39
Summary:
This paper evaluates infrared thermography as a non-invasive technique to assess heat stress in cattle. It’s an important contribution toward developing precision livestock monitoring tools, improving early detection and stress management protocols in dairy operations.

6. Adaptive capability indicated by redox status and endocrine responses in heat-stressed crossbred cattle

Authors: B Yadav, G Singh, A Wankar
Journal: Journal of Animal Research, 2015, Vol 5(1), pp. 67–73
Cited by: 35
Summary:
This study correlates oxidative stress biomarkers and hormone profiles with adaptive responses in heat-stressed cattle. The research provides deeper insights into physiological resilience mechanisms and supports breeding and nutrition strategies for heat-tolerant livestock.

7. Acclimatization dynamics to extreme heat stress in crossbred cattle

Authors: B Yadav, G Singh, A Wankar
Journal: Biological Rhythm Research, 2021, Vol 52(4), pp. 524–534
Cited by: 26
Summary:
This paper studies how crossbred cattle gradually adapt to prolonged heat exposure. It highlights the critical transition phases in physiological acclimatization, offering practical implications for livestock management in hot climates.

8. Effect of temperature x THI on acclimatization in buffaloes under heat stress

Authors: AK Wankar, G Singh, B Yadav
Journal: Biological Rhythm Research, 2021, Vol 52(10), pp. 1589–1603
Cited by: 17
Summary:
This work examines the combined effect of ambient temperature and Temperature-Humidity Index (THI) on acclimatization responses in buffaloes. It reveals complex interactions influencing heat resilience, useful in region-specific livestock planning.

9. Biochemical profile and methane emission during controlled thermal stress in buffaloes

Authors: AK Wankar, G Singh, B Yadav
Journal: Buffalo Bulletin, 2017, Vol 36(1), pp. 35–42
Cited by: 16
Summary:
This research provides valuable data on how thermal stress alters biochemical markers and methane output in buffaloes. The findings underscore the potential of physiological monitoring in optimizing emission control.

10. Haematobiochemical profile of broilers supplemented with Ashwagandha and Bhuineem

Authors: SA Dhenge, RN Shirbhate, KB Bahiram, AK Wankar, et al.
Journal: Indian Journal of Field Veterinarians, 2009, Vol 5(1), pp. 5–8
Cited by: 9
Summary:
This study explores herbal supplementation in broilers and its effect on blood parameters. It adds to the body of research supporting natural alternatives in poultry healthcare.

🧾 Conclusion

Dr. Alok Khemraj Wankar is an exceptionally qualified academic and researcher with a deep-rooted expertise in veterinary physiology, particularly in the domain of animal adaptation to environmental stressors, which is highly relevant in today’s climate-centric research paradigm. With strong publication metrics, consistent research leadership, recognized national awards, and active academic involvement, he is highly deserving of the “Best Academic Researcher Award”. His work contributes not only to veterinary sciences but also to the broader goals of sustainable agriculture and livestock resilience under climate stress.

Dr Lili Zhao | Biomedical Engineering |

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Dr Lili Zhao | Biomedical Engineering | Women Researcher Award

Department of Computer Science, Nantong University, China

Dr. Lili Zhao, born in Xinxiang, China, is a distinguished researcher specializing in Artificial Intelligence, Computer Vision, and Biomedical Image Processing. Currently serving in the Department of Computer Science at Nantong University, she has built a career dedicated to innovative research and teaching. She earned her Doctor of Engineering from the National University of Defense Technology and completed her postdoctoral research at Shanghai Jiao Tong University. With an international research stint at the University of Leicester, UK, Dr. Zhao has strengthened global academic ties. Her work has led to impactful publications in SCI-indexed journals and international conferences. Known for her contributions to medical imaging—particularly in fetal ultrasound and cervical cancer diagnostics—she integrates deep learning and algorithmic optimization in her projects. Beyond research, she passionately teaches courses in machine learning, C++, and digital image processing, fostering the next generation of computer scientists.

🎓 Education

Dr. Lili Zhao’s academic journey reflects a strong foundation in Computer Science and Artificial Intelligence. She earned her Bachelor of Engineering (2007) from Xinyang Normal University, followed by a Master of Engineering (2011) from Henan Normal University, majoring in Computer Application Technology. Her thirst for advanced research led her to pursue a Doctor of Engineering (2017) in Computer Science at the National University of Defense Technology, one of China’s top institutions. From 2018 to 2024, she conducted postdoctoral research in Artificial Intelligence at Shanghai Jiao Tong University, focusing on medical image processing. She also spent 2022–2023 as an academic visitor at the University of Leicester, UK, further enriching her international perspective in AI research. Her consistent academic excellence and cross-disciplinary training uniquely position her to address challenges at the intersection of computing and biomedical engineering.

💼 Experience

Dr. Zhao currently serves in the Department of Computer Science at Nantong University, where she is involved in both teaching and research within the School of Artificial Intelligence and Computer Science. Over the years, she has held various academic positions, with hands-on experience in research laboratories focused on biomedical image processing, deep learning, and AI-powered healthcare diagnostics. During her postdoctoral work at Shanghai Jiao Tong University, she developed advanced frameworks for fetal ultrasound image assessment and cervical cancer detection. She also collaborated internationally during her academic visit to the University of Leicester, contributing to joint projects in algorithmic optimization and uncertainty quantification. Her teaching record includes courses such as Machine Learning, C++ Programming, and Digital Image Processing, emphasizing her balanced engagement in both scientific innovation and student mentorship.

🔬 Research Focus

Dr. Lili Zhao’s research is centered on the development of AI-driven solutions for biomedical image analysis, particularly in fetal imaging and cervical cell diagnostics. Her work combines image processing, computer vision, and algorithm optimization to enable early and accurate diagnosis of medical conditions. She employs deep learning techniques to address challenges such as image quality assessment, segmentation, and classification under uncertainty or label shift. Her projects integrate multi-phase detection, extreme learning machines, and MRF-based segmentation for cytological images, contributing significantly to early cancer detection and maternal health monitoring. These solutions have the potential to be integrated into smart diagnostic systems and telemedicine platforms. Dr. Zhao’s research not only improves diagnostic efficiency but also ensures cost-effective healthcare delivery, particularly in under-resourced settings.

📄 Publication Top Notes

 

 

Li Jiaxuan | Ocean Engineering | Best Researcher Award

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Dr Li Jiaxuan | Ocean Engineering | Best Researcher Award

PhD student, Harbin Institute of Technology, China

Jiaxuan Li, born in 1998 in Heilongjiang Province, is a passionate and driven ocean engineering researcher currently pursuing a PhD in Civil and Hydraulic Engineering at Harbin Institute of Technology. His academic journey spans from a Bachelor’s in Safety Engineering at Chang’an University to a Master’s in Resource and Environmental Sciences at China University of Geosciences (Wuhan). Under the mentorship of Professor Dagang Lv, his PhD research centers on the reliability of offshore wind turbines under multi-hazard conditions. Li’s interdisciplinary expertise in geotechnics, fluid mechanics, and dynamic modeling informs his contributions to several nationally funded projects, where he excels in finite element analysis and coding. He has authored multiple peer-reviewed journal articles in leading Q1 journals and has garnered recognition for innovation, academic excellence, and leadership. With deep curiosity and technical rigor, Li is making significant strides in ensuring the resilience and safety of marine and offshore structures.

Profile

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🎓 Education 

Jiaxuan Li has pursued a rigorous academic path focused on engineering and environmental resilience. He began with a B.Eng. in Safety Engineering from Chang’an University (2016–2020), where he gained a strong foundation in safety systems, mechanics, and electronic technologies. He then earned his M.Sc. in Resource and Environmental Studies from China University of Geosciences (Wuhan) (2020–2023), specializing in marine geotechnical engineering. His master’s thesis examined the dynamic behavior of offshore pipe piles, under the supervision of Professor Hao Liu. Currently, he is a second-year PhD student at Harbin Institute of Technology (since 2023), majoring in Civil and Hydraulic Engineering. His doctoral research delves into the reliability of offshore wind turbines subjected to complex environmental stresses. Throughout his education, he has mastered advanced analytical tools such as MATLAB, ABAQUS, and AutoCAD, and taken key engineering courses including geotechnical, structural, and thermodynamic systems to support his multifaceted research.

🛠️ Experience 

Jiaxuan Li has hands-on research experience across four major national and provincial scientific programs. He actively contributed to the National Key R&D Program focused on transportation infrastructure resilience by developing finite element models and coding analytical simulations. In the National Natural Science Foundation of China’s General Program, he supported studies on offshore foundation safety and cyclic load responses through theoretical analysis and algorithm development. His work on the Hubei Natural Science Foundation Youth Project centered on soil-plugging effects in pile foundations, while a separate Guangxi-funded project explored safety design of pile-bucket foundations under lateral loads. In every project, Li played key roles in theoretical modeling, data processing, and co-authoring research papers. His experience bridges academic theory and practical engineering with strong computational and structural insights. His skills in MATLAB, ABAQUS, and SOLIDWORKS complement his field knowledge, enabling him to simulate real-world marine and offshore geotechnical challenges with high precision.

🏅 Awards and Honors 

Jiaxuan Li has received multiple awards recognizing both his academic excellence and entrepreneurial innovation. As an undergraduate, he was twice awarded the title of “Excellent League Cadre” and received two university-level scholarships. He excelled in the Internet+ Innovation and Entrepreneurship competitions, earning a Silver Award for his platform on elderly travel and residence, and a Bronze Award for an IoT-based fire escape guidance system. His projects were selected as national and university-level innovation incubators, including “Green Intent Network Technology Co., Ltd.” and subway carriage monitoring applications. During his master’s studies, Li again earned the “Excellent League Cadre” title, won third prize at a university scientific paper presentation, and secured a first-class academic scholarship. These accolades underscore his leadership, creativity, and scholarly rigor in both technological development and scientific research—traits that continue to drive his contributions to the field of ocean engineering and offshore structure safety.

🔬 Research Focus

Jiaxuan Li’s research focuses on the reliability and dynamic behavior of offshore wind turbines under multi-hazard effects. His investigations combine geotechnical engineering, structural dynamics, and marine environmental modeling to assess how wind, waves, seismic activity, and soil-structure interaction impact the performance of offshore energy systems. At the master’s level, he explored the lateral and horizontal dynamic responses of offshore pipe piles, particularly the effects of superstructure and soil plugging, which laid the groundwork for his doctoral research. His PhD project now advances this work by modeling complex multi-hazard scenarios that influence the operational stability and fragility of wind turbine foundations. He employs numerical simulations (e.g., ABAQUS), meta-damping models, and reliability analysis tools to predict failure mechanisms and optimize foundation design. His work supports the development of resilient, cost-effective offshore infrastructure vital to sustainable energy systems. He also contributes to national projects on coastal infrastructure safety and disaster mitigation.

📄 Publication Top Notes

  1. 📘 Lateral kinematic properties of offshore pipe piles embedded in saturated soil considering soil plug effect 

  2. ⚙️ Lateral dynamic response of offshore pipe piles considering the effect of superstructure 

  3. 🌊 New method to calculate the kinematic response of offshore pipe piles under seismic S-waves 

  4. 🏗️ Analytical solution for kinematic response of offshore piles under vertically propagating s-waves

Conclusion: 

His publication record, involvement in nationally significant research projects, strong academic background, and technical expertise make him stand out. His focus on renewable energy infrastructure is also very timely and aligns with global research priorities.

Charoen Nakason | Rubber Technology | Best Researcher Award

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Prof. Dr. Charoen Nakason | Rubber Technology | Best Researcher Award

Professor, Prince of Songkla University, Thailand

Dr. Charoen Nakason is a Professor at the Faculty of Science & Industrial Technology, Prince of Songkla University (PSU), Surat Thani Campus, Thailand. With a deep-rooted expertise in polymer science and natural rubber technology, he has significantly advanced research in polymer rheology and rubber processing. He began his academic journey with a BSc in Chemistry from PSU, followed by an MSc in Polymer Science from Chulalongkorn University, and earned his PhD in Polymer Rheology & Processing from the University of Bradford, UK. Over a career spanning more than three decades, Dr. Nakason has held pivotal academic and administrative roles, including Vice President of PSU Surat Thani Campus. He has published over 230 international articles and received multiple national awards. His commitment to scientific innovation and community service underscores his impact as a researcher, educator, and leader in Thailand’s polymer and rubber technology landscape.

Profile

Google Scholar

🎓 Education Background 

Dr. Nakason earned his Bachelor of Science in Chemistry in 1986 from Prince of Songkla University. Driven by a passion for polymers, he pursued a Master of Science in Polymer Science at Chulalongkorn University, graduating in 1991. Eager to contribute to the industrial applications of natural rubber, he then obtained his PhD in Polymer Rheology & Processing from the University of Bradford, England, in 1997. His academic path reflects a focused dedication to understanding the behavior, processing, and application of natural rubber and synthetic polymers. These degrees laid the foundation for his expertise in rubber compounding, grafting reactions, and thermoplastic vulcanizates. The international exposure during his doctoral studies contributed to his global perspective and innovative approach to sustainable rubber technology. Today, Dr. Nakason continues to bridge academic theory and industrial practice through extensive research, collaborations, and mentoring future scientists.

💼 Experience 

Dr. Nakason began his academic career in 1991 as a lecturer in Rubber Technology and Polymer Science at PSU’s Pattani Campus. After completing his PhD in England (1993–1997), he resumed teaching and progressed to Assistant Professor by 1999 and Associate Professor by 2002. In 2012, he moved to the Surat Thani Campus and was approved as Full Professor in 2021. Alongside teaching, he held key administrative roles, including Director of the Centre of Excellence in Natural Rubber Technology, Dean of FST, and Vice President of PSU Surat Thani Campus (2012–2022). His leadership extended to national bodies, serving on the Board of Directors of the Rubber Authority of Thailand (2019–2023) and chairing its Research & Innovation Committee. Through these roles, Dr. Nakason has influenced policy, research direction, and innovation in Thailand’s rubber industry, while mentoring early-career researchers and managing large-scale research infrastructure.

🏆 Awards & Honors

Dr. Nakason has been widely recognized for his pioneering work in rubber technology. In 2010, he received two major national honors: the National Outstanding Researcher Award in Physical Sciences and the Thailand Toray Science and Technology Award. His alma mater also acknowledged him with Outstanding Alumni Awards in 2011 and 2012. His early contributions were celebrated with the Outstanding Staff Award (2003) and Outstanding Research Facility Award (2008). His project achievements include TRF awards for creamed latex pond linings (2010) and grafted natural rubber adhesives (2005). In 2017, he was honored with the Distinguished Alumni Award from Benjamarachutit School. These accolades reflect both scientific excellence and community impact, underscoring his role as a leader in natural rubber research and application. Dr. Nakason continues to inspire Thailand’s scientific community through sustained innovation, impactful research, and strong academic leadership.

🔬 Research Focus

Dr. Charoen Nakason specializes in polymer science, with a particular emphasis on natural rubber technology. His research focuses on the rheology, processing, and functional modification of natural rubber to enhance its mechanical, thermal, and morphological properties. He is renowned for his work in grafting maleic anhydride onto natural rubber, dynamic vulcanization, and developing thermoplastic vulcanizates with improved performance. His studies explore the blending of natural rubber with synthetic polymers such as polypropylene and PMMA, as well as the use of nanofillers like carbon nanotubes for conductivity enhancement. He also researches sustainable alternatives and renewable fillers to reduce environmental impact. His body of work—over 230 international publications—contributes to global understanding of polymer compatibility, reactive blending, and bio-based composite materials. With over 4,500 citations and an h-index of 37, his work serves as a foundation for both industrial innovation and academic inquiry into advanced rubber materials.

📚Publication Top Notes

📘 Grafting of maleic anhydride onto natural rubber
🧪 Effect of vulcanization system on epoxidized natural rubber/polypropylene blends
📗 Rheological properties of maleated natural rubber with PMMA blends
🧫 Influence of modified rubber and carbon black structure on rubber compounds
🔬 Dynamic vulcanization of NR/HDPE blends with compatibilizers
🧬 Modification of deproteinized natural rubber via grafting polymerization
🧴 Peroxide effects on properties of NR/PP thermoplastic vulcanizates
🌾 Preparation of cassava starch-graft-polyacrylamide superabsorbents
🌀 Rheological behavior of maleated NR–cassava starch
💡 Rheological properties of maleated NR/polypropylene blends

Conclusion

The candidate is an outstanding researcher with a proven, sustained, and impactful career in polymer science and natural rubber technology. The breadth of achievements — from high-quality publications to national-level awards, and from academic leadership to industrial application — aligns extremely well with the criteria for a Best Researcher Award.

Workiye Getnet Abera | Chemical Engineering | Best Scholar Award

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Mr. Workiye Getnet Abera | Chemical Engineering | Best Scholar Award

Lecturer, Debre Tabor university, Ethiopia

Workiye Getnet Abera is a dynamic and innovative Chemical Engineer from Addis Ababa, Ethiopia, specializing in modeling, simulation, and the development of biomass-based products. With over five years of academic and research experience, he currently serves as a Senior Lecturer and Researcher at Debre Tabor University. His journey began at Jimma University, where he earned both his BSc and MSc in Chemical Engineering with a focus on process engineering. Throughout his career, Workiye has demonstrated a passion for sustainable materials, publishing numerous papers in top-tier international journals and contributing actively as a reviewer and editorial board member. His hands-on industrial training at Fincha Sugar Factory enriched his practical knowledge, bridging the gap between theory and industry. As an academic with strong technical skills and a commitment to innovation, he continuously works toward developing eco-friendly engineering solutions that can address global sustainability challenges and promote cleaner production methods.

Profile

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🎓 Education 

Workiye Getnet Abera pursued both his undergraduate and postgraduate education in Chemical Engineering at Jimma University, one of Ethiopia’s most prestigious institutions. He obtained his Bachelor of Science (BSc) degree in 2017, gaining a strong foundation in core engineering principles, fluid mechanics, thermodynamics, and chemical process design. Building on this, he continued his academic journey and received his Master of Science (MSc) in Chemical Engineering with a specialization in Process Engineering in 2020. His master’s research was focused on sustainable technologies and renewable resource utilization, particularly in polymer and biomass-based material synthesis. His academic training emphasized both theoretical rigor and practical application, equipping him with advanced knowledge in process modeling, simulation, and optimization techniques. His educational background, coupled with strong analytical and research skills, has laid a solid foundation for his professional and academic accomplishments, preparing him for impactful work in the chemical engineering and sustainability sectors.

🧪 Experience

Workiye has a diverse professional background combining teaching, research, and industrial experience. He currently works as a Senior Lecturer and Researcher at Debre Tabor University, where he leads research in polymer chemistry and additive manufacturing and delivers core chemical engineering courses. Before this, he served as a Lecturer and Researcher at Dilla University from 2020 to 2024, where he was actively engaged in curriculum development, mentoring students, and advancing research in sustainable processes and materials. His industry experience began with an internship at Fincha Sugar Factory in 2015, where he gained practical exposure to large-scale industrial operations, including sugar production and bioproduct processing. This blend of academia and industry has shaped him into a well-rounded professional. His experience across both academic institutions and industrial settings enables him to bridge theory and practice, nurturing a new generation of engineers while conducting impactful research that meets real-world needs.

🔬 Research Focus 

Workiye Getnet Abera’s research centers around sustainable materials engineering, biomass utilization, and process optimization. His work contributes to global environmental goals by creating value-added products from renewable and agro-industrial waste. His primary research interests include the synthesis and characterization of bioplastics, development of plant-based biolubricants, and formulation of gluten-free functional foods. He employs modeling, simulation, and design of experiments (DoE) techniques using tools such as Aspen Plus, MATLAB, Design Expert, and ANSYS to optimize chemical processes. Additionally, Workiye is exploring polymer chemistry and additive manufacturing to produce eco-friendly alternatives to conventional plastics. Through interdisciplinary collaboration and hands-on experimentation, he aims to develop green engineering solutions for food, pharmaceutical, and energy sectors. His work not only contributes to academic knowledge but also holds practical implications for local industries and sustainable development in Ethiopia and beyond. His forward-looking research aligns well with the goals of global climate action and circular economy.

📚 Publication Top Notes

  1. 🧴 Synthesis, Characterization, and Optimization of Antimicrobial Biolubricant from Ocimum lamiifolium and Lactic Acid – Heliyon, 2025

  2. 🍞 Quality Assessment of Gluten-Free Sorghum Bread with Sweet Lupin Flour – CYTA Journal of Food, 2024

  3. 🍪 Effect of Baking Conditions on Gluten-Free Biscuit from Groundnut Oilseed Cake and Teff – Cogent Food & Agriculture, 2024

  4. 🌿 Synthesis and Characterization of Bioplastic from Banana Peel Starch and Cellulosic Fiber – Biomass Conversion & Biorefinery, 2023

 

 

Ophir Katzenelenbogen | Cognitive Science | Pioneer Researcher Award

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Dr Ophir Katzenelenbogen | Cognitive Science | Pioneer Researcher Award

Postdoctoral Fellow, The Hebrew University of Jerusalem, Israel

Dr. Ophir Katzenelenbogen is a clinical psychologist and interdisciplinary researcher whose work spans social, developmental, and health psychology. A postdoctoral fellow at the Hebrew University of Jerusalem, he focuses on dyadic goal dynamics, mindfulness-based interventions, and mental health prediction models for adolescents. He holds a PhD in Psychology from Ben-Gurion University of the Negev, where he investigated interdependence in couples’ goal pursuits. Dr. Katzenelenbogen has collaborated with top international research labs, such as the REACH Lab at the University of Southern California, and has authored peer-reviewed publications in Q1 journals. With clinical experience in psychiatric settings, psychotrauma centers, and psychodynamic therapy, he bridges empirical science with real-world therapeutic applications. His leadership, community involvement, and service in the IDF further highlight a career grounded in resilience, compassion, and innovation. He is currently developing ecological, personalized interventions that aim to transform how cognitive and emotional health is supported across diverse populations.

Profile

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🎓 Education

Dr. Ophir Katzenelenbogen’s academic journey began with a Bachelor’s degree in Psychology and Education from Ben-Gurion University of the Negev (2013–2016), where he graduated with distinction (94.03 GPA). He continued to pursue a Master’s degree in Psychology at Ruppin Academic Center (2016–2018), earning a weighted GPA of 91.54 and an exceptional thesis score of 93. For his PhD (2018–2024), also at Ben-Gurion University, he explored “Dyadic Interdependence in Goal-Dynamics” under Prof. Eran Bar-Kalifa and achieved a remarkable coursework GPA of 95.5. Currently, he is a postdoctoral fellow in the Department of Psychology at the Hebrew University of Jerusalem, mentored by Dr. Gal Lazarus. His education reflects a unique integration of psychological science, clinical training, and applied methodology, forming a strong foundation for innovative research in behavioral science, mindfulness, and predictive modeling in mental health.

💼 Professional 

Dr. Katzenelenbogen’s clinical and research experience is rich and multidimensional. He has completed residencies in psychiatric hospitals and youth villages, including “Hillel Yaffe” Medical Center and “Talpiot” Youth Village, where he delivered psychological interventions to diverse populations. Since 2022, he has served as a clinical evaluator at “Metiv”—Israel’s Center for the Treatment of Psychotrauma—and contributed to MDMA-assisted psychotherapy trials for the MAPS organization. His research experience includes collaborations with Prof. Telma Handler on trauma neuroscience and interventions for seniors. He led mindfulness groups during his MA and postdoctoral research and was a visiting scholar at the REACH Lab, USC. His service in the Israeli Army included roles focused on education and inclusion of special populations. This blend of academic rigor, clinical sensitivity, and social outreach defines his forward-thinking, impact-driven professional profile.

🔬 Research Focus

Dr. Katzenelenbogen’s research lies at the intersection of dyadic psychology, cognitive intervention, and ecological mental health modeling. His doctoral work investigated how goal interdependence affects relational outcomes and motivation in couples, offering empirical insights into daily behavior coordination. He has since broadened his focus to include mindfulness-based interventions for seniors, cognitive functioning, and mental distress regulation. Currently, as a postdoctoral fellow, he is pioneering the development of predictive, data-driven models for adolescent mental health, using real-time ecological assessment tools. This approach is designed to enable personalized, transdiagnostic mental health care, moving beyond traditional static diagnoses. His research integrates behavioral data, psychological constructs, and digital delivery methods to promote adaptive functioning across the lifespan. His work is distinguished by methodological rigor, cross-cultural relevance, and a commitment to accessible, scalable interventions that respond to real-world psychological challenges.

📚 Publication Top Notes

  1. 👩‍👧 The Moderating Effect of Maternal Modeling on Age-Related Decline in Children’s Physical Activity

  2. 🧘‍♂️ Brief Mindfulness-Based Intervention for Seniors—An Exploratory Semi-Randomized Examination of Decentering Effects on Cognitive Functions and Psychological Distress

 

 

Mr Adolor David Aiyeki | Additive Manufacturing of Lunar Regolith Simulant | Best Paper Award

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Mr Adolor David Aiyeki | Additive Manufacturing of Lunar Regolith Simulant | Best Paper Award

PhD Student, Skolkovo Institute of Science and Technology, Russia

Adolor David Aiyeki is an emerging researcher and engineer dedicated to the advancement of sustainable manufacturing technologies for both Earth and extraterrestrial environments. He is currently a Ph.D. candidate in Mathematics and Mechanics at the Skolkovo Institute of Science and Technology, Russia. Adolor’s journey began with a Bachelor’s degree in Mechanical Engineering from the University of Benin, Nigeria, and a Master’s in Advanced Manufacturing from Skoltech. A natural problem solver and systems thinker, he integrates hands-on industry experience with high-level academic research. He has led automation and mechanical engineering projects in Nigeria and contributed to sustainability education as a UN SDG Action Campaign volunteer. Adolor’s work focuses on additive manufacturing of lunar regolith for space construction, and he has received multiple honors for academic excellence and innovation. Driven by curiosity, sustainability, and global impact, he aspires to revolutionize the future of space-based manufacturing and green energy systems through innovative material research.

Profile

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🎓 Education

Adolor David Aiyeki has a solid academic background in mechanical engineering and advanced manufacturing. He earned his Bachelor of Engineering in Mechanical Engineering from the University of Benin, Nigeria, where he conducted research on biomass gasifiers. He further pursued a Master of Science in Advanced Manufacturing Technologies at the Skolkovo Institute of Science and Technology, Russia, with a thesis on using lunar regolith for in-situ space construction through Digital Light Processing (DLP). His curriculum included advanced topics in finite element analysis, additive manufacturing, composite materials, and product lifecycle management (PLM). Currently, Adolor is a Ph.D. candidate in Mathematics and Mechanics at Skoltech, investigating supercritical CO₂ processing for photopolymer-based ceramic 3D printing. His interdisciplinary education spans core mechanical engineering, computational modeling, sustainability, and futuristic space applications, empowering him with the theoretical foundation and experimental skills to drive innovation at the intersection of energy, material science, and manufacturing.

💼 Experience 

Adolor’s professional experience spans engineering, education, and sustainability. He served as an Assistant Home Automation Engineer at Hometronix Nigeria, where he developed and installed smart control systems for residential and commercial clients. His efforts improved project efficiency and earned a high client satisfaction rate. At Friday Omoragbon & Sons Ltd., he worked as a Mechanical Engineer, supervising construction and pipeline installations. Earlier, as an intern at the Nigeria Airspace Management Agency and Autogenius Royal Motors, he gained valuable hands-on experience in power systems and automotive diagnostics. In addition, Adolor worked as a science teacher, inspiring students in mathematics, physics, and basic technology. His long-term volunteer work with the UN SDG Action Campaign showcases his passion for advocacy, where he led youth engagement programs and sustainable development initiatives. These multifaceted roles reflect his adaptability, leadership, and technical skills across diverse sectors from field engineering to global awareness.

🏅 Awards and Honors 

Adolor David Aiyeki has been widely recognized for his academic excellence and leadership potential. At Skolkovo Institute of Science and Technology, he received the Scholarship for Development and Academic Excellence, and his Master’s thesis earned the Best Research Thesis Award (2024). His undergraduate achievements were supported by the Matthew Okpebholo Foundation Scholarship and the Agbami Medical and Engineering Professionals Scholarship, spanning 2014–2017. His talent in science was evident early on, winning a Gold Medal at the Science Talent Search Innovation Championship and a Silver Medal in the STAN National Competition. He also graduated as the Best Science Student from Blessed Saint Paul High School in 2009. These awards reflect not only Adolor’s academic rigor but also his commitment to social impact and scientific innovation. With each honor, his trajectory affirms his position as a promising thought leader in sustainable energy, materials research, and space engineering.

🔬 Research Focus 

Adolor’s research revolves around advanced additive manufacturing technologies and their applications in sustainable and extraterrestrial construction. His Master’s research focused on “Improved Additive Manufacturing of Lunar Regolith Simulant via Digital Light Processing”, a breakthrough concept for in-situ resource utilization (ISRU) on the Moon. This work aims to reduce dependence on Earth-bound materials for space missions by turning lunar soil into usable construction materials using photopolymerization techniques. Currently, his Ph.D. project explores the use of supercritical CO₂ in ceramic additive manufacturing, enhancing material strength and resolution. His approach is deeply interdisciplinary, integrating fluid dynamics, multiphase flow modeling, and material characterization. The dual focus on green manufacturing and space resource utilization places Adolor’s research at the forefront of next-gen engineering. His work has implications for sustainable infrastructure on Earth and future Moon or Mars colonization projects, contributing to the growing field of space engineering and planetary sustainability.

📚 Publication

📘 Improved Additive Manufacturing of Lunar Regolith Simulant via Digital Light Processing for In-Situ Resource Utilization on the Moon 🌕🖨️🧪

Parisasadat Shojaei | Cybersecurity and Privacy | Distinguished Scientist Award

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Ms Parisasadat Shojaei | Cybersecurity and Privacy | Distinguished Scientist Award

PhD Candidate, University of Wollongong, Australia. 

Parisasadat Shojaei is a PhD candidate in Computer Science at the University of Wollongong, Australia. Her interdisciplinary expertise bridges computer engineering, privacy-enhancing technologies, and AI-driven health informatics. With over a decade of teaching and industry experience in Iran and Australia, Parisa has mentored students, led IT projects, and contributed to cross-functional research in data privacy and cybersecurity. Her PhD research explores user-centric privacy frameworks in mobile health (mHealth) applications. She has worked on high-impact projects, including data analysis in DEI initiatives and cloud security practices. With a solid background in both academia and industry, Parisa combines practical software development skills with academic rigor. She has published several peer-reviewed papers, presented at international conferences, and earned multiple awards for academic excellence and research contributions. Passionate about ethical AI and inclusive technologies, she continues to bridge the gap between secure system design and user trust.

Profile

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📘 Education 

Parisa holds a Bachelor and Master of Science in Computer Engineering – Software from Islamic Azad University, Iran, where she earned accolades such as the Best Graduate Student Award. She is currently pursuing a PhD in Computer Science (Information Science) at the University of Wollongong, Australia. Her thesis, “Developing Effective Privacy-Enhancing Guidelines for Designing mHealth Applications,” is supervised by Dr. Elena Vlahu-Gjorgievska and A/Prof. Casey Chow. Her education blends deep technical skills in software engineering with specialized training in data privacy, health informatics, and cybersecurity. In addition to her formal education, Parisa has earned numerous certifications from institutions like HarvardX, CIW, and TsinghuaX, covering topics such as Python for Research, AI, Data Science, and Web Development. Her continued education through workshops and online learning platforms reflects a dedication to lifelong learning and staying current with emerging technologies.

🧑‍💻 Experience 

Parisa brings a robust mix of academic, industrial, and research experience. She is currently a PhD candidate and demonstrator at the University of Wollongong, teaching subjects like Web Development, Cryptography, AI, and Cybersecurity. Professionally, she has served as a web developer and data analyst in Australia, working with Cultural Infusion and Metallum Fabrication Pty Ltd, where she applied her skills in GDPR compliance, AWS security, and data visualization. Previously in Iran, she held roles as a software developer, web designer, and lecturer across several universities and tech institutes. She led research in AI, machine learning, and cybersecurity, contributing to numerous publications and national conferences. Her leadership includes mentoring PhD students, managing research projects, and coordinating industrial collaborations. Parisa excels in interdisciplinary teamwork, cloud computing, and privacy-enhancing technologies, seamlessly integrating theoretical research with practical implementations.

🔬 Research Focus 

Parisa’s research is deeply rooted in the intersection of privacy, cybersecurity, and digital health technologies. Her PhD research is centered on creating privacy-enhancing guidelines for the design of mHealth (mobile health) applications, integrating user-centric design principles with secure architecture. She investigates how privacy perceptions influence user behavior and trust in digital health systems. Her previous research includes evolutionary algorithms, task scheduling in cloud computing, fuzzy systems for intrusion detection, and AI-driven optimization models. Recently, her work has expanded to data ethics, cloud-based privacy-preserving technologies, and GDPR-compliant frameworks in DEI data management. Her approach combines quantitative methods, machine learning models, and empirical user studies. Parisa is particularly interested in bridging the gap between theoretical privacy models and real-world application usability, contributing toward more ethical and secure tech ecosystems. Her contributions aim to support inclusive, transparent, and user-trusted digital infrastructures in healthcare and education sectors.

📚 Publication Top Notes

  1. 🧠📱 Enhancing Privacy in mHealth Applications: A User-Centric Model Identifying Key Factors Influencing Privacy-Related Behaviours

  2. 🔒📊 Security and Privacy of Technologies in Health Information Systems: A Systematic Literature Review

  3. 🌌👩‍🍼 Developing and Testing a Mobile Application for Breastfeeding Support: The Milky Way Application

  4. 🧮☁️ An Approach to Optimized Imperialist Competitive Algorithm for Task Scheduling in Cloud Computing

  5. 🐝⏱️ A Hybrid Particle Swarm Optimization for Task Scheduling in Cloud Computing

  6. 🧬📦 An Approach to Optimized Genetic Algorithm for Task Scheduling in Cloud Computing

  7. 🎯🚦 Threshold Acceptance Approach for Task Scheduling in Cloud Computing

  8. 🐜🔍 A Hybrid Algorithm for Task Scheduling Based on Ant Colony Optimization and Local Neighborhood Search

  9. 🛡️🧠 Intelligent Intrusion Detection Using Fuzzy Imperialist Competitive Algorithm

  10. 🧿📘 A Hybrid Algorithm for Task Scheduling Based on Binary Particle Swarm Optimization and Local Neighborhood Search

 

 

Viktoriia Shtefan | Corrosion | Best Academic Researcher Award

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Prof. Dr Viktoriia Shtefan | Corrosion | Best Academic Researcher Award

Academic researcher , Leibniz-Institute for Solid State and Materials Research Dresden (IFW Dresden) , Germany

Professor Dr. Viktoriia Shtefan is an internationally recognized expert in technical electrochemistry, with over two decades of academic and research experience spanning Ukraine and Germany. She holds the position of academic researcher at the Leibniz-Institute for Solid State and Materials Research Dresden (IFW Dresden), while also leading the Department of Technical Electrochemistry at NTU “KhPI” in Ukraine. With a strong background in corrosion science, metallic glasses, and electrochemical coatings, Dr. Shtefan’s work is pivotal in advancing sustainable materials for energy, biomedical, and industrial applications. Her career includes prestigious fellowships, leadership in DFG-funded projects, and contributions to international collaborations. As a Ukrainian refugee scholar, she has also been a recipient of multiple mobility and support grants. Her prolific research output includes journal articles, book chapters, and a patent, reflecting both scientific depth and practical impact.

Profile

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🎓 Education

Dr. Viktoriia Shtefan began her academic journey at NTU “KhPI” in Kharkiv, Ukraine, where she earned her Bachelor’s (1999) and Master’s (2001) degrees in Chemical Engineering with a focus on Technical Electrochemistry. Her early research focused on hydrogenation in carbon steels and electrochemical impedance. She pursued her PhD (2000–2005), investigating radical ion salt synthesis and earned her Doctor of Engineering Sciences (2019) with a dissertation on molybdenum- and tungsten-based electrochemical coatings. Throughout her academic development, she has demonstrated a sustained commitment to corrosion science, surface chemistry, and the development of functional materials. Her graduate and postgraduate studies were supervised by renowned electrochemists and included training in potentimetric titration, microstructure analysis, and electrochemical process control. These qualifications laid the foundation for her multidisciplinary research that bridges electrochemistry, materials science, and industrial applications.

💼 Experience

Prof. Shtefan’s career trajectory spans teaching, research, leadership, and international collaboration. She has served as Assistant, Associate Professor, and later Full Professor at the Department of Technical Electrochemistry, NTU “KhPI” (2004–2024), where she led courses on corrosion, rare metals, catalysis, and nanomaterials. In 2024, she became Head of the Department. Internationally, she has held guest scientist roles at IFW Dresden under VolkswagenStiftung and DFG-funded projects, focusing on corrosion-resistant materials and biocompatibility of metallic glasses. Since 2023, she has been involved in advanced electrochemical projects in Germany, including the design of nanostructured electrodes for green hydrogen evolution. Her industrial experience includes internships in Spain and with Ukrainian R&D institutions. She also led a budget project focused on anti-corrosion strategies for nuclear power applications. Her diverse roles reflect an ability to integrate research, education, and innovation at the intersection of academia and industry.

🔍 Research Focus

Dr. Viktoriia Shtefan’s research revolves around corrosion science, electrochemical surface treatment, and the development of functional coatings for advanced industrial applications. Her specialization includes the nanostructuring of metallic glasses, electrochemical dealloying, and environmentally friendly surface protection technologies. Her work aims to improve the longevity and performance of materials exposed to aggressive environments, such as in nuclear reactors, biomedical implants, and hydrogen production. She has explored the interplay between microstructure and corrosion behavior using advanced surface and spectroscopic techniques. Current research projects involve developing sustainable coatings using molybdenum, tungsten, and chromium oxide composites, with implications for both biocompatibility and high-temperature corrosion resistance. Her interdisciplinary approach blends electrochemistry, metallurgy, and nanotechnology, and she has secured national and international grants. Through numerous collaborations and publications, she contributes to the transition toward corrosion-resistant, eco-conscious, and high-performance engineering materials.

📚 Publication top Notes