Esra Karaman | Environmental Science | Research Excellence Award

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Dr. Esra Karaman | Environmental Science | Research Excellence Award

Research Expert | Hacettepe University | Turkey

Dr. Esra Karaman is a researcher and expert at Hacettepe University specializing in environmental engineering, with advanced academic training in ecotoxicology and sustainable process design. Her research primarily investigates the ecotoxicity of environmental pollutants, with a focus on the toxic effects of ionic and nanoparticulate silver through meta-analysis methods. She has made significant contributions in green chemistry, circular economy, and sustainable process optimization, bridging academic research with practical applications. Dr. Karaman has led and contributed to numerous projects on occupational health and safety, behavior-based safety, and digital and green transformation, demonstrating strong leadership in research coordination and capacity-building initiatives. Her scholarly work includes publications in peer-reviewed journals, contributions to authoritative handbooks, and translation of key scientific frameworks, reflecting her commitment to advancing knowledge and accessibility in her field. She has also played a pivotal role in developing tools and training methodologies that strengthen institutional and professional capabilities. With a growing citation record and recognized expertise, Dr. Karaman continues to demonstrate high potential for impactful, innovative research that addresses critical environmental and occupational health challenges globally.

Citation Metrics (Google Scholar)

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Top Featured Publications

 

Seyed Ali Ekrami Kakhki | Civil Engineering | Research Excellence Award

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Dr. Seyed Ali Ekrami Kakhki | Civil Engineering | Research Excellence Award

Semnan University | Iran

Dr. Seyed Ali Ekrami Kakhki, a distinguished Civil Engineering scholar at Semnan University, specializes in structural engineering with a focus on reinforced concrete structures and progressive collapse analysis. He earned his Ph.D. in Civil Engineering – Structural Engineering from Azad University of Semnan, following an M.Sc. in Structural Engineering from Tafresh State University and a B.Sc. from Islamic Azad University, Taft. Dr. Ekrami Kakhki has led and supervised major civil engineering projects, including urban metro construction, rural road development, and structural strengthening of residential and institutional buildings, demonstrating a combination of technical expertise and leadership in project management. His research centers on the progressive collapse of reinforced concrete frames, incorporating soil-structure interaction and sensitivity analysis to enhance structural resilience. He has published multiple peer-reviewed articles in high-impact JCR Q2 journals such as the International Journal of Concrete Structures and Materials and contributed to the Journal of Structural and Construction Engineering, advancing the understanding of structural stability under critical load conditions. Recognized for his academic excellence and leadership, Dr. Ekrami Kakhki actively contributes to the civil engineering community through editorial roles, peer review, and collaborative research, reflecting a sustained commitment to innovation and scholarly impact in structural engineering.

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Top 5 Featured Publications

 


Numerical Investigation of the Progressive Collapse of RC Wall-Frame Structures

– International Journal of Concrete Structures and Materials, 2023


Evaluation of Progressive Collapse of RC Frames Based on Sensitivity Index

– International Journal of Concrete Structures and Materials, 2022


Analysis of Electrical Engineering Systems

– Journal of Electrical Engineering, 2016


Perovskite-Type LaFeO3 & LaFeO3-CNTs Nanocrystals for Methanol Oxidation

– Published under Springer (Chemistry/Nanocatalysts)

Liang Pei | Environmental Science | Editorial Board Member

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Prof. Liang Pei | Environmental Science | Editorial Board Member

Director | Chinese Academy of Sciences | China

Professor Pei Liang, a distinguished researcher at the Chinese Academy of Sciences, is recognized for his expertise in environmental science, pollution control, separation technology, and chemical engineering. He holds advanced degrees in chemistry and environmental engineering, with academic training that established his foundation in analytical methodologies and sustainable process design. Throughout his career, he has served in key research and leadership roles, guiding interdisciplinary projects on pollutant behavior, advanced separation processes, and innovative control technologies while mentoring emerging scholars and contributing to institutional strategy. His research focuses on developing high-efficiency separation materials, pollution mitigation approaches, and environmentally conscious chemical processes, resulting in a substantial body of publications and highly cited contributions that have advanced both theory and application in his field. He has received numerous recognitions for scientific excellence and professional impact, and he has served in editorial capacities for respected journals as well as in memberships within national and international scientific committees and professional societies. With a strong citation record, a high h-index, and extensive contributions to environmental and chemical sciences, Professor Liang exemplifies scholarly leadership and enduring commitment to advancing solutions for global environmental challenges.

Profiles: Google Scholar

Featured Publications

1. Lu, S., Zhang, X., Wang, J., & Pei, L. (2016). Impacts of different media on constructed wetlands for rural household sewage treatment. Journal of Cleaner Production, 127, 325–330.

2. Jeong, C. H., Postigo, C., Richardson, S. D., Simmons, J. E., Kimura, S. Y., … (2015). Occurrence and comparative toxicity of haloacetaldehyde disinfection byproducts in drinking water. Environmental Science & Technology, 49(23), 13749–13759.

3. Sun, Z., & Liang, P. (2008). Determination of Cr (III) and total chromium in water samples by cloud point extraction and flame atomic absorption spectrometry. Microchimica Acta, 162(1), 121–125.

4. Liang, P., Ding, Q., & Song, F. (2005). Application of multiwalled carbon nanotubes as solid phase extraction sorbent for preconcentration of trace copper in water samples. Journal of Separation Science, 28(17), 2339–2343.

5. Liang, P., Zhao, E., & Li, F. (2009). Dispersive liquid–liquid microextraction preconcentration of palladium in water samples and determination by graphite furnace atomic absorption spectrometry. Talanta, 77(5), 1854–1857.*

Professor Pei Liang’s work advances innovative environmental remediation and pollution control technologies that strengthen sustainable water management and safeguard public health. His research delivers practical solutions for industry and rural communities alike, driving scientific progress in separation science while supporting global efforts toward cleaner, more resilient ecosystems.

Gbekeloluwa Oguntimein | Environmental Science | Best Researcher Award

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Dr. Gbekeloluwa Oguntimein | Environmental Science | Best Researcher Award

Professor at Morgan State University, United States

Dr. Gbekeloluwa B. Oguntimein is an accomplished researcher and educator with over four decades of experience in chemical, environmental, and biochemical engineering. He holds a Ph.D. from Iowa State University and has held academic positions at leading institutions including the University of Ibadan, Morgan State University, and multiple U.S. universities. His research has received international recognition through prestigious fellowships such as the Alexander von Humboldt Fellowship (Germany), NSERC Fellowship (Canada), and CIES Fellowship (France). Dr. Oguntimein has contributed to cutting-edge projects at NASA, Oak Ridge National Laboratory, and the National Renewable Energy Laboratory. He is a registered Professional Engineer, a Board Certified Environmental Engineer, and serves on editorial boards of several scientific journals. His extensive service includes NSF review panels, international consulting, and leadership in professional societies like AIChE and ACS. Dr. Oguntimein’s career reflects a deep commitment to innovation, environmental sustainability, interdisciplinary research, and mentorship in engineering education.

Professional Profile 

Scopus Profile
ORCID Profile 

Education 

Dr. Oguntimein earned a Bachelor of Science degree in Chemical Engineering from Iowa State University in Ames, Iowa. He continued at the same institution to complete a Ph.D. in Chemical Engineering, reflecting strong academic foundations in process systems, reaction engineering, and environmental technologies. His education extended beyond the classroom through postdoctoral research training at the Laboratorie de Biotechnologie, Institut Nationale Politechnique de Lorraine in France, and the International Facility for Food Irradiation in the Netherlands. These advanced programs provided him with specialized knowledge in biotechnology and food safety technologies. His cross-continental education laid the groundwork for a rich and diverse career in both teaching and applied research. The academic journey Dr. Oguntimein pursued has been instrumental in equipping him to work across disciplines and contribute significantly to both academic and industrial scientific communities worldwide.

Experience

Dr. Oguntimein’s professional experience spans academia, industry, and government. In academia, he has held roles from instructor to associate professor at institutions including the University of Ibadan, Morgan State University, and the University of Maryland system, teaching courses in civil, chemical, and environmental engineering. His industrial experience includes working as a process development engineer at American Maize Product Company. He has also served as a consultant on enzyme technology, feasibility studies, and training programs for global institutions such as IITA and Zymetis Inc. Dr. Oguntimein’s government service includes time as a visiting professor at the U.S. Environmental Protection Agency, contributing to intergovernmental environmental policies. In research, he has held fellowships at major institutions such as NASA, Oak Ridge National Laboratory, and NREL. His experience reflects a well-rounded and impactful career that bridges theory and application across sectors and international borders.

Awards and Honors

Dr. Oguntimein has received numerous prestigious awards and honors throughout his career. Early in his academic life, he was recognized with multiple U.S. academic society honors, including membership in Tau Beta Pi, Phi Kappa Phi, and Omega Chi Epsilon. He has been awarded several elite research fellowships such as the CIES Postdoctoral Fellowship in France, the NSERC Fellowship in Canada, and the Alexander von Humboldt Fellowship in Germany. These honors underscore international recognition of his research excellence. He also received the Nigerian Federal Government Scholarship and has been recognized by the New York Academy of Sciences. His status as a Board Certified Environmental Engineer and a Fellow of the Nigerian Society of Chemical Engineers further validates his impact and expertise. Additionally, he has served on major grant review panels for organizations like the NSF and EPA, reflecting continued trust in his judgment and leadership in research evaluation.

Research Focus on Environmental Science

Dr. Oguntimein’s research focuses on environmental biotechnology, biochemical process engineering, and sustainable energy. His interdisciplinary projects integrate biological and chemical methods to address challenges in wastewater treatment, hazardous waste management, and resource recovery. He has worked on enzyme-based technologies, microbial remediation, and the development of environmentally friendly processing systems. His research engagements with NASA, Oak Ridge National Laboratory, and the National Renewable Energy Laboratory have centered on applying biotechnology for space exploration, bioenergy, and pollution control. He is actively involved in projects related to biological wastewater treatment, environmental impact assessment, and biochemical systems modeling. Dr. Oguntimein’s research is deeply connected to sustainability and the practical application of science to solve global environmental problems. His contributions to journals, editorial boards, and national funding panels also highlight his influence in shaping the direction of environmental and biochemical engineering research in both academic and industrial sectors.

Publications Top Notes

  • Title: N-Butanol or Isobutanol as a Value-Added Fuel Additive to Inhibit Microbial Degradation of Stored Gasoline
    Authors: Elkins, J.G.; Rodriguez, M.; Cannon, O.N.; Connatser, R.M.; Oguntimein, G.B.; Kass, M.D.; West, B.; Davison, B.H.
    Year: 2022

  • Title: Best Practices for the Implementation of Home-based, Hands-on Lab Activities to Effectively Engage STEM Students During a Pandemic
    Authors: Owolabi, O.A.; Ladeji-Osias, J.; Shokouhian, M.; Alamu, O.S.; Lee, S.W.; Oguntimein, G.B.; Ariyibi, A.; Lee, H.J.; Bista, K.; Dugda, M.T. et al.
    Year: 2021

  • Title: Sustainability assessment of municipal solid waste in Baltimore USA
    Authors: Alamu, S.O.; Wemida, A.; Tsegaye, T.; Oguntimein, G.
    Year: 2021

  • Title: Anaerobic microplate assay for direct microbial conversion of switchgrass and Avicel using Clostridium thermocellum
    Authors: Oguntimein, G.B.; Rodriguez, M.; Dumitrache, A.; Shollenberger, T.; Decker, S.R.; Davison, B.H.; Brown, S.D.
    Year: 2018

  • Title: High Throughput Screening Technologies in Biomass Characterization
    Authors: Decker, S.R.; Harman-Ware, A.E.; Happs, R.M.; Wolfrum, E.J.; Tuskan, G.A.; Kainer, D.; Oguntimein, G.B.; Rodriguez, M.; Weighill, D.; Jones, P. et al.
    Year: 2018

  • Title: Engaging engineering graduate students in applied research at Morgan State University
    Authors: Chen, G.; Ladeji-Osias, J.; Oguntimein, G.B.; Lee, Y.-J.
    Year: 2015

  • Title: Biosorption of dye from textile wastewater effluent onto alkali treated dried sunflower seed hull and design of a batch adsorber
    Authors: Gbekeloluwa B. Oguntimein
    Year: 2015

  • Title: Application of chitosan in remediation of dyes
    Authors: Oguntimein, G.B.; Animashaun, O.; Okpere, I.
    Year: 2009

  • Title: Waters network’s potential to transform environmental engineering education
    Authors: Eschenbach, E.; Montgomery, J.; Johnson, J.; Brus, C.; Carlson, P.; Giammar, D.; Grauer, B.; Hotaling, L.; Oguntimein, G.; Safferman, S. et al.
    Year: 2007

  • Title: Transforming K-12 education via the collaborative large-scale engineering analysis network for environmental research (CLEANER) project
    Authors: Eschenbach, E.; Johnson, J.H.; Brus, C.; Carlson, P.; Giammar, D.; Grauer, B.; Hotaling, L.; Oguntimein, G.; Safferman, S.; Wentling, T.
    Year: 2006

  • Title: Work in progress: Eliciting input for transforming CSET education via the NSF Collaborative Large-scale Engineering Analysis Network for Environmental Research (CLEANER)
    Authors: Eschenbach, E.; Johnson, J.; Brus, C.; Carlson, P.; Giammar, D.; Grauer, B.; Hotaling, L.; Oguntimein, G.; Safferman, S.; Seiler, E. et al.
    Year: 2006

Conclusion

Dr. Gbekeloluwa B. Oguntimein stands as a distinguished figure in engineering and environmental science, with a legacy built on four decades of academic, research, and professional excellence. His work spans multiple continents, integrating chemical, environmental, and biochemical engineering to address critical global challenges such as waste management, sustainable energy, and environmental remediation. He has contributed significantly to STEM education through hands-on teaching, curriculum development, and mentoring, especially in underrepresented communities. His participation in national labs like NASA, ORNL, and NREL reflects the relevance and quality of his research, while his editorial, review, and leadership roles demonstrate his thought leadership. Through numerous publications, fellowships, and international collaborations, Dr. Oguntimein has left a profound mark on both scientific progress and educational equity. He embodies the spirit of a true researcher—curious, committed, and impactful—making him an inspiring candidate for high recognition and an enduring role model in the global scientific community.

Satyen Kumar Das | Chemical Engineering | Outstanding Scientist Award

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Dr. Satyen Kumar Das | Chemical Engineering | Outstanding Scientist Award

Chief General Manager at Indian Oil Corporation Limited, R&D Centre, Faridabad, India

Dr. Satyen Kumar Das, Chief General Manager at IndianOil R&D Centre, is a distinguished chemical engineer with over 30 years of pioneering contributions in petroleum refining, sustainability, and circular technologies. A Ph.D. from IIT Delhi, he has led the development and commercialization of breakthrough technologies such as INDMAX, Ind-Coker, Needle Coke, INDEcoP2F, and IV-IZOMaxCAT, significantly enhancing India’s energy self-reliance. With 210 patents (144 granted globally), 10 commercialized technologies, and over 98 technical publications, his innovations span residue upgradation, light olefin production, and waste-to-fuel conversion. Dr. Das has received 13+ national awards, including honors from DST, DSIR, and MOP&NG, recognizing his excellence in applied R&D. Under his leadership, several large-scale refining projects have been successfully deployed across India and internationally. His visionary work blends scientific rigor with industrial impact, making him a leading force in advancing indigenous, eco-friendly refining technologies.

Professional Profile 

Google Scholar
Scopus Profile

Education 

Dr. Satyen Kumar Das has a strong academic foundation in chemical engineering from some of India’s premier institutions. He completed his Bachelor of Technology (B.Tech) in Chemical Engineering from the University of Calcutta, where he gained essential knowledge in chemical processes and thermodynamics. He then pursued his Master of Technology (M.Tech) in Chemical Engineering from the Indian Institute of Technology, Kanpur, enhancing his expertise in process engineering and catalysis. To further advance his academic pursuits, Dr. Das earned his Doctorate (Ph.D.) in Chemical Engineering from the Indian Institute of Technology, Delhi. During his academic journey, he built a strong foundation in research methodology, process modeling, and applied chemical engineering, which laid the groundwork for his long-standing contributions to petroleum refining and sustainable technologies. His education has been instrumental in shaping his career, enabling him to bridge the gap between scientific research and industrial innovation effectively.

Experience 

Dr. Satyen Kumar Das began his professional journey with IndianOil R&D Centre in 1995 and has since accumulated nearly 30 years of experience in the petroleum refining industry. Currently serving as Chief General Manager, he leads the Refining Technology division, steering large-scale R&D, troubleshooting, and commercial deployment of innovative technologies. From 1995 to 2013, he contributed to the development of key catalytic processes such as INDMAX, INDALIN, and Fischer Tropsch-based technologies. Between 2014 and 2025, he spearheaded the commercialization of advanced solutions including Ind-Coker, INDEcoP2F, and IV-IZOMaxCAT, transforming refinery operations across India. His leadership has resulted in the successful implementation of several commercial plants, with a cumulative licensed capacity of over 17 MMTPA. Dr. Das also initiated futuristic projects in bio-refineries, waste-to-energy, and CO₂ valorization, demonstrating a vision aligned with environmental sustainability. His broad experience reflects an exceptional blend of technical depth and strategic innovation.

Awards and Honors

Dr. Satyen Kumar Das has been widely recognized for his outstanding contributions to petroleum refining and chemical engineering through numerous national and industry awards. He has received over 13 prestigious honors, including multiple National Awards from the Government of India for the development and commercialization of INDMAX and Needle Coke Technologies. The National Petroleum Management Program (NPMP) and DST, DSIR, and MOP&NG have honored him for innovation, sustainability, and indigenous technology leadership. He received the “Innovator of the Year” award from FIPI, the CHEMTECH CEW Award for R&D excellence, and the AIMA Award for breakthrough innovation in artificial intelligence and R&D. In recent years, he was recognized for plastic circularity (INDEcoP2F), light naphtha isomerization (IV-IZOMaxCAT), and was honored with the “Jewel of India Award” and the “Indian Scientist Award” for best researcher in chemical engineering. His accolades underscore his impact on national energy innovation.

Research Focus  on Chemical Engineering

Dr. Satyen Kumar Das’s research primarily centers on the development of innovative, sustainable, and commercially viable technologies in petroleum refining. His focus includes residue upgradation, light olefin production, waste-to-fuel conversion, and plastic circularity—critical areas in the transition toward cleaner energy. He led the development of pathbreaking technologies like INDMAX, Ind-Coker, INDEcoP2F, and Octamax, targeting fuel efficiency, process optimization, and emissions reduction. His work spans catalyst development, feedstock valorization, carbon material synthesis, and CO₂ utilization, reflecting a deep commitment to sustainability and energy security. Dr. Das’s ability to move innovations from lab-scale to full-scale commercial deployment across multiple Indian and international refineries highlights his applied research excellence. He also initiated future-oriented programs in bio-refineries, advanced carbon materials, and specialty chemicals, aligning with global trends. His research philosophy blends scientific rigor with practical utility, aiming to enhance refinery economics while minimizing environmental impact.

Publications Top Notes

  • Title: Multi stage selective catalytic cracking process and a system for producing high yield of middle distillate products from heavy hydrocarbon feedstocks
    Authors: D Bhattacharyya, AK Das, AV Karthikeyani, SK Das, P Kasliwal, M Santra, …
    Year: 2006
    Citations: 64

  • Title: CO-hydrogenation of syngas to fuel using silica supported Fe–Cu–K catalysts: Effects of active components
    Authors: SK Das, S Majhi, P Mohanty, KK Pant
    Year: 2014
    Citations: 43

  • Title: Process for catalytic cracking of petroleum based feed stocks
    Authors: S Mandal, S Kumarshah, D Bhattacharyya, VLN Murthy, AK Das, S Singh, …
    Year: 1998
    Citations: 41

  • Title: CO-hydrogenation over silica supported iron based catalysts: Influence of potassium loading
    Authors: SK Das, P Mohanty, S Majhi, KK Pant
    Year: 2013
    Citations: 40

  • Title: Upgradation of undesirable olefinic liquid hydrocarbon streams
    Authors: AK Das, S Mandal, S Ghosh, D Bhattacharyya, GS Mishra, JK Dixit, …
    Year: 2000
    Citations: 38

  • Title: Stabilized dual zeolite single particle catalyst composition and a process thereof
    Authors: MP Kuvettu, SK Ray, G Ravichandran, V Krishnan, SK Das, S Makhija, …
    Year: 2005
    Citations: 31

  • Title: Molecular-level structural insight into clarified oil by nuclear magnetic resonance (NMR) spectroscopy: estimation of hydrocarbon types and average structural parameters
    Authors: S Mondal, A Yadav, R Kumar, V Bansal, SK Das, J Christopher, GS Kapur
    Year: 2017
    Citations: 29

  • Title: Process for simultaneous cracking of lighter and heavier hydrocarbon feed and system for the same
    Authors: S Subramani, D Bhattacharyya, R Manna, SK Das, T Sarkar, S Rajagopal
    Year: 2016
    Citations: 19

  • Title: Dissecting the cohesiveness among aromatics, saturates and structural features of aromatics towards needle coke generation in DCU from clarified oil by analytical techniques
    Authors: S Mondal, A Yadav, V Pandey, V Sugumaran, R Bagai, R Kumar, SK Das
    Year: 2021
    Citations: 14

  • Title: Process for simultaneous cracking of lighter and heavier hydrocarbon feed and system for the same
    Authors: S Subramani, D Bhattacharyya, R Manna, SK Das, T Sarkar, S Rajagopal
    Year: 2016
    Citations: 13

  • Title:Process for the production of needle coke
    Authors: D Bhattacharyya, SV Kumaran, BVHP Gupta, P Kumar, AK Das, G Saidulu, SK Das
    Year: 2009
    Citations: 8

  • Title: Delayed coker drum and method of operating thereof
    Authors: THVD Prasad, PR Pradeep, SK Das, JK Dixit, G Thapa, D Bhattacharyya
    Year: 2019
    Citations: 7

  • Title: Process and apparatus for co-conversion of waste plastics in delayed coker unit
    Authors: PR Pradeep, THVD Prasad, SA Dixit, P Mondal, VK Kottiyath, SK Das, …
    Year: 2021
    Citations: 6

  • Title: Process for the conversion of crude oil to light olefins, aromatics and syngas
    Authors: PR Pradeep, AK Kottakuna, THVD Prasad, SK Das, D Bhattacharyya, …
    Year: 2020
    Citations: 3

  • Title: Process for conversion of residue employing de-asphalting and delayed coking
    Authors: PR Pradeep, SK Das, THVD Prasad, AK Kottakuna, D Bhattacharyya, …
    Year: 2020
    Citations: 2

Conclusion

Dr. Satyen Kumar Das is an accomplished chemical engineer with a robust academic background from top Indian institutions and nearly three decades of impactful experience at IndianOil R&D. His contributions to indigenous refining technologies, waste-to-fuel innovation, and plastic circularity have transformed India’s energy landscape. With over 210 patents, 98 publications, 13+ national awards, and successful commercialization of 10 major technologies, his work demonstrates a rare blend of scientific depth, innovation, and real-world implementation. Dr. Das is strongly recommended for the Outstanding Scientist Award in recognition of his pioneering research and sustained national impact.

Jiang Youjing | Environmental Science | Best Researcher Award

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Ms. Jiang Youjing | Environmental Science | Best Researcher Award

Master at Henan University, China

Ms. Youjing Jiang is a Master’s student at the College of Geographical Sciences, Henan University, China, specializing in climate change, agriculture, remote sensing, and environmental data analysis. With a strong academic foundation in Geographic Information Science from Harbin Normal University and ongoing postgraduate studies in Geography, she demonstrates a keen interest in applying geospatial technologies to address pressing environmental challenges. Her interdisciplinary background equips her with valuable analytical and technical skills, particularly in handling environmental data and satellite imagery. While still in the early stages of her research career, Ms. Jiang shows promise in contributing to the fields of climate science and sustainable agriculture. Her academic trajectory reflects a commitment to scientific inquiry and the pursuit of knowledge in areas vital to global development. As she continues her research and begins to publish and participate in academic forums, she is poised to make meaningful contributions to environmental and geographical sciences.

ORCID Profile

Education

Ms. Youjing Jiang has pursued a solid academic path in the field of geographical sciences. She earned her Bachelor of Science degree in Geographic Information Science from Harbin Normal University, where she developed a foundational understanding of spatial data analysis, GIS applications, and environmental systems. Currently, she is enrolled in a Master of Science program in Geography at Henan University, one of China’s respected institutions for environmental and earth sciences. Her graduate studies allow her to deepen her expertise in climate science, agricultural systems, and geospatial technologies. Through her education, Ms. Jiang has built a strong interdisciplinary knowledge base that combines theory, technical training, and applied environmental studies. This academic progression demonstrates her commitment to advancing her knowledge and skill set in critical areas of global importance such as climate change and sustainable land management. Her academic choices reflect a clear vision toward a research-driven and environmentally focused career.

Professional Experience

As a current Master’s student, Ms. Youjing Jiang’s professional experience is primarily grounded in her academic training and involvement in research-related activities. While no formal work experience is listed in her CV, her engagement in academic environments suggests exposure to research labs, data analysis tasks, and coursework involving practical applications of GIS and remote sensing technologies. Her role within the Faculty of Geographical Science and Engineering at Henan University likely involves collaborative research, environmental modeling, and the use of geospatial tools to analyze climate and agricultural trends. Although still at an early stage in her professional journey, her hands-on experience in handling environmental datasets and interpreting remote sensing imagery positions her well for research roles in academia or environmental consulting. As she progresses, opportunities such as internships, research assistantships, or field projects would greatly enhance her applied experience and provide a stronger professional foundation to complement her academic achievements.

Research Interest

Ms. Youjing Jiang’s research interests lie at the intersection of environmental science and geospatial analysis. She is particularly focused on climate change and its impacts on agriculture, as well as the application of remote sensing and environmental data analysis to monitor and address ecological changes. Her academic background in Geographic Information Science, combined with her current graduate studies in Geography, enables her to explore how spatial technologies can support sustainable development and environmental resilience. She is interested in using satellite imagery, geospatial modeling, and big environmental data to understand long-term patterns in land use, weather, and crop health. These interests place her at the forefront of contemporary environmental research, especially as global challenges related to food security and climate variability become increasingly urgent. Her work has the potential to inform both scientific understanding and policy recommendations for climate adaptation and agricultural sustainability in China and beyond.

Award and Honor

As of the current CV, there is no mention of specific awards or honors received by Ms. Youjing Jiang. This may be due to her early career stage as a graduate student, during which recognition typically comes in the form of scholarships, research grants, or academic performance awards. If she has received any academic distinctions, such as honors during her undergraduate studies or recognition for outstanding research at her current university, these would strengthen her profile considerably. As she continues to develop her research and begins to participate in academic conferences or publish in scientific journals, she may become eligible for honors related to innovation, academic excellence, or environmental research contributions. Tracking such achievements in the future will be important for establishing her credentials and visibility within the research community. Recognitions, even at the university or departmental level, will play a crucial role in demonstrating her commitment and impact within her chosen field.

Conclusion

Ms. Youjing Jiang is an emerging researcher with a strong academic background in geographical sciences and a growing interest in climate change, agriculture, and geospatial analysis. With formal education in Geographic Information Science and current graduate studies in Geography at Henan University, she possesses a solid technical and theoretical foundation for environmental research. Although still early in her career, her focus on high-impact issues such as climate variability and sustainable agriculture positions her well for future contributions to the field. While she has not yet accumulated significant professional experience or formal recognitions, her research direction is both timely and aligned with global scientific priorities. Continued engagement in research activities, academic publishing, and participation in scholarly forums will be key to her development as a leading environmental scientist. With dedication and mentorship, Ms. Jiang is well-placed to evolve into a respected figure in geospatial and climate-related research communities.

Publications Top Notes

  • Title: Measurement of Suspended Sediment Concentration at the Outlet of the Yellow River Canyon: Using Sentinel-2 Images and Machine Learning

  • Authors: Genxin Song, Youjing Jiang, Xinyu Lei, Shiyan Zhai

  • Year: 2025

  • Journal: Remote Sensing

  • DOI: 10.3390/rs17142424

  • Publisher: Multidisciplinary Digital Publishing Institute (MDPI

Vassilios Sikavitsas | Chemical Engineering | Best Researcher Award

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Prof. Vassilios Sikavitsas | Chemical Engineering | Best Researcher Award 

Professor at University of Oklahoma, United States

Professor Vassilios I. Sikavitsas is a distinguished researcher and educator in biomedical and chemical engineering at the University of Oklahoma. With a Ph.D. in Chemical Engineering from SUNY Buffalo and postdoctoral experience at Rice University, his work focuses on tissue engineering, cancer therapeutics, and bioreactor technologies. He has authored numerous high-impact publications and holds patents related to bone tissue engineering and scaffold design. Recognized multiple times as Best Professor by chemical engineering students, he has also mentored award-winning graduate researchers. His research bridges fundamental science and clinical application, notably in cancer exosome-based therapies and dynamic in vitro tumor models. Sikavitsas actively contributes to the scientific community through editorial board service and memberships in leading professional societies such as AIChE, BMES, and TERMIS. His commitment to interdisciplinary innovation, student development, and translational impact positions him as a leading figure in his field and a strong candidate for the Best Researcher Award.

Professional Profile

Google Scholar
Scopus Profile

Education

Professor Vassilios I. Sikavitsas holds a strong academic foundation in chemical engineering. He earned his Ph.D. (2000) and M.S. (1995) in Chemical Engineering from the State University of New York at Buffalo, where he built his expertise in biomaterials and tissue engineering. Prior to his graduate studies in the United States, he obtained a Diploma in Chemical Engineering from Aristotle University of Thessaloniki, Greece, in 1991. His educational trajectory reflects a progressive focus on biomedical applications within engineering, which laid the groundwork for his future research in regenerative medicine and bioreactor technologies. This combination of classical chemical engineering training and biomedical specialization has enabled him to operate at the intersection of engineering and life sciences, a hallmark of his interdisciplinary research. The international scope of his education also contributes to his broad perspective on engineering challenges and biomedical innovation.

Professional Experience

Professor Sikavitsas has built a distinguished academic career at the University of Oklahoma, where he currently serves as a Professor in the School of Chemical, Biological, and Materials Engineering and is affiliated with the Institute of Biomedical Engineering, Science, and Technology. He joined the university as an Assistant Professor in 2002 and was progressively promoted to Associate Professor in 2008 and Full Professor in 2015. His academic journey began with a postdoctoral research appointment in the Department of Bioengineering at Rice University from 2000 to 2002, where he deepened his expertise in tissue engineering. Throughout his academic appointments, he has established a dynamic and productive research laboratory, collaborated across disciplines, and contributed significantly to curriculum development in bioengineering. In addition to his academic duties, he serves on editorial boards and remains active in professional societies, enhancing his engagement with the broader scientific and engineering communities.

Research Interest

Professor Sikavitsas’s research is centered around tissue engineering, regenerative medicine, cancer biology, and bioreactor design. He specializes in the development of 3D biomimetic scaffolds, dynamic in vitro tumor models, and bone tissue constructs using advanced flow perfusion systems. His work investigates the role of mechanical stimulation and surface modifications in cell differentiation and tissue regeneration. In recent years, he has expanded into cutting-edge cancer research, exploring exosome-based drug delivery systems and tumor-immune interactions. His interdisciplinary projects bridge chemical engineering principles with biomedical applications, contributing to both fundamental understanding and clinical translation. Notable innovations include US patents on scaffold technology and tissue construct production. With an emphasis on bioreactor modeling and oxygen transport optimization, his work has practical implications in both regenerative therapies and anti-cancer strategies. His lab’s ability to combine experimental and computational methods distinguishes his contributions in the field of biomedical engineering.

Award and Honor

Professor Sikavitsas has received numerous awards and recognitions that reflect his excellence in research, teaching, and mentorship. He has been honored multiple times as the “Best Chemical Engineering Professor” by senior undergraduate students at the University of Oklahoma, recognizing his dedication to teaching and student engagement. As a research advisor, he has mentored students who have won prestigious accolades, including the Biomedical Engineering Society’s Best Dissertation Award and several Best Poster Awards at regional and national conferences. His achievements are further highlighted by multiple editorial board appointments in respected journals like the Journal of Functional Biomaterials and Scientifica (tissue engineering section). Additionally, his professional affiliations with AIChE, BMES, the Biomaterials Society, and TERMIS underscore his standing in the scientific community. These recognitions demonstrate his well-rounded excellence as a researcher, educator, and mentor, making him a strong role model and leader in his academic field.

Conclusion

Professor Vassilios I. Sikavitsas is a highly accomplished researcher and educator whose work bridges chemical engineering and biomedical science. His academic background, combined with over two decades of professional experience, has positioned him as a leader in tissue engineering, regenerative medicine, and cancer therapeutic research. His innovative work on bioreactors, scaffolds, and cancer exosomes has resulted in numerous peer-reviewed publications, patents, and awards. Equally committed to mentorship and education, he has been recognized for excellence in teaching and for guiding students toward national-level accolades. His involvement in editorial boards and leading scientific societies demonstrates a commitment to the advancement of science and engineering at large. Professor Sikavitsas’s sustained contributions to both research and academic service, along with his interdisciplinary impact, make him a compelling candidate for honors such as the Best Researcher Award. His career reflects a balance of innovation, collaboration, and academic leadership.

Publications Top Notes

  • Title: Fluid flow increases mineralized matrix deposition in 3D perfusion culture of marrow stromal osteoblasts in a dose-dependent manner
    Authors: GN Bancroft, VI Sikavitsas, J Van Den Dolder, TL Sheffield, CG Ambrose, et al.
    Year: 2002
    Citations: 901

  • Title: Biomaterials and bone mechanotransduction
    Authors: VI Sikavitsas, JS Temenoff, AG Mikos
    Year: 2001
    Citations: 815

  • Title: Mineralized matrix deposition by marrow stromal osteoblasts in 3D perfusion culture increases with increasing fluid shear forces
    Authors: VI Sikavitsas, GN Bancroft, HL Holtorf, JA Jansen, AG Mikos
    Year: 2003
    Citations: 595

  • Title: Formation of three‐dimensional cell/polymer constructs for bone tissue engineering in a spinner flask and a rotating wall vessel bioreactor
    Authors: VI Sikavitsas, GN Bancroft, AG Mikos
    Year: 2002
    Citations: 541

  • Title: Design of a flow perfusion bioreactor system for bone tissue-engineering applications
    Authors: GN Bancroft, VI Sikavitsas, AG Mikos
    Year: 2003
    Citations: 529

  • Title: In vitro generated extracellular matrix and fluid shear stress synergistically enhance 3D osteoblastic differentiation
    Authors: N Datta, QP Pham, U Sharma, VI Sikavitsas, JA Jansen, AG Mikos
    Year: 2006
    Citations: 521

  • Title: Effect of flow perfusion on the osteogenic differentiation of bone marrow stromal cells cultured on starch‐based three‐dimensional scaffolds
    Authors: ME Gomes, VI Sikavitsas, E Behravesh, RL Reis, AG Mikos
    Year: 2003
    Citations: 468

  • Title: Effect of bone extracellular matrix synthesized in vitro on the osteoblastic differentiation of marrow stromal cells
    Authors: N Datta, HL Holtorf, VI Sikavitsas, JA Jansen, AG Mikos
    Year: 2005
    Citations: 388

  • Title: Flow perfusion enhances the calcified matrix deposition of marrow stromal cells in biodegradable nonwoven fiber mesh scaffolds
    Authors: VI Sikavitsas, GN Bancroft, JJ Lemoine, MAK Liebschner, M Dauner, et al.
    Year: 2005
    Citations: 247

  • Title: Flow perfusion culture of marrow stromal osteoblasts in titanium fiber mesh
    Authors: J van den Dolder, GN Bancroft, VI Sikavitsas, PHM Spauwen, JA Jansen, et al.
    Year: 2003
    Citations: 205

  • Title: Pre‐culture period of mesenchymal stem cells in osteogenic media influences their in vivo bone forming potential
    Authors: H Castano‐Izquierdo, J Álvarez‐Barreto, J Dolder, JA Jansen, AG Mikos, et al.
    Year: 2007
    Citations: 203

  • Title: Tuning the biomimetic behavior of scaffolds for regenerative medicine through surface modifications
    Authors: NR Richbourg, NA Peppas, VI Sikavitsas
    Year: 2019
    Citations: 196

  • Title: Flow perfusion improves seeding of tissue engineering scaffolds with different architectures
    Authors: JF Alvarez-Barreto, SM Linehan, RL Shambaugh, VI Sikavitsas
    Year: 2007
    Citations: 171

  • Title: Polypyrrole thin films formed by admicellar polymerization support the osteogenic differentiation of mesenchymal stem cells
    Authors: H Castano, EA O’Rear, PS McFetridge, VI Sikavitsas
    Year: 2004
    Citations: 158

  • Title: Influence of the in vitro culture period on the in vivo performance of cell/titanium bone tissue‐engineered constructs using a rat cranial critical size defect model
    Authors: VI Sikavitsas, J Dolder, GN Bancroft, JA Jansen, AG Mikos
    Year: 2003
    Citations: 150

Charly Julien Nyobe | Civil Engineering | Best Paper Award

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Dr. Charly Julien Nyobe | Civil Engineering | Best Paper Award

Chercheur at Ecole Normale Supérieure d’Enseignement Technique de Douala-Cameroun, Cameroon.

Charly Julien Nyobe 🎓 is a dedicated Cameroonian researcher and educator specializing in civil engineering, biomechanics, and material sciences. Born on March 11, 1985, in Garoua-Boulaï, he has pursued an extensive academic career, earning two PhDs and multiple engineering degrees. With a passion for structural mechanics, wood engineering, and impact mechanics, he actively contributes to cutting-edge research on sustainable construction materials. Currently, he teaches at the University of Douala and collaborates on international projects. An expert in statistical analysis, finite element methods, and material characterization, Nyobe is committed to advancing engineering solutions for real-world challenges. 🚀📚

Professional Profile:

Scopus

ORCID

Google Scholar

Suitability for the Award

Dr. Charly Julien Nyobe is a highly accomplished researcher in civil engineering, biomechanics, and material sciences, with extensive expertise in structural mechanics, wood engineering, and impact mechanics. His strong academic background, dual PhDs, and consistent research contributions demonstrate a deep commitment to advancing engineering knowledge, particularly in sustainable construction materials. His ability to bridge experimental, numerical, and theoretical methods in engineering makes him a strong contender for the Best Paper Award.

Education & Experience 📚

Doctorate (PhD) in Mechanical Engineering – Université Gustave Eiffel, France (2022 – Ongoing)
Doctorate (PhD) in Civil Engineering – École Nationale Supérieure Polytechnique de Yaoundé, Cameroon (2023)
Master’s in Civil Engineering – University of Douala, Cameroon (2015)
DIPET II (Master’s equivalent) in Civil Engineering – ENSET Douala, Cameroon (2011)
DIPET I (Bachelor’s equivalent) in Civil Engineering – ENSET Douala, Cameroon (2009)
DEUG in Computer Science – University of Yaoundé I, Cameroon (2006)
Baccalauréat in Mathematics & Physics – Lycée d’Obala, Cameroon (2003)

💼 Work Experience:
✔️ Lecturer – University of Douala (2018 – Present)
✔️ Visiting Lecturer – École Supérieure de La Salle (2018 – 2022)
✔️ Lecturer – Institute of Technology, Douala (2018 – 2020)
✔️ Civil Engineering Teacher – Lycée Polyvalent de Bonabéri (2012 – 2018)

Professional Development 🚀

Charly Julien Nyobe is constantly engaged in professional development to stay at the forefront of engineering innovations. In 2023, he trained in LS-Dyna at IUT Lyon 1, France, refining his expertise in impact simulation and finite element modeling. Additionally, he enhanced his scientific visualization skills through an Inkscape training at the University of Lyon. As a member of the GDR Science du Bois (France) since 2019, he actively participates in collaborative research, focusing on wood mechanics, structural engineering, and impact analysis. His interdisciplinary approach blends experimental, numerical, and theoretical methods for innovative engineering solutions. 🌍🛠️📊

Research Focus 🔬

Dr. Nyobe’s research is centered on civil engineering, wood mechanics, and impact mechanics. His work spans mechanical characterization of materials, structural resilience, and numerical modeling. He is passionate about sustainable construction, particularly the use of tropical woods in engineering applications. His studies explore Monte Carlo simulations, Weibull statistical models, and multi-scale mechanical classification of materials. He also delves into shock mechanics, investigating crash simulations and road safety barriers using advanced software like LS-Dyna. His research contributes to eco-friendly building solutions, aiming to optimize wood-based engineering materials for durability and resilience. 🌳🏗️⚙️

Awards & Honors 🏆

🏅 2023 – PhD in Civil Engineering with “Très Honorable” distinction 🏛️
🏅 2015 – Master’s degree with “Très Bien” distinction 🎓
🏅 2011 – DIPET II with “Très Bien” distinction 🏗️
🏅 2009 – DIPET I with “Très Bien” distinction 🏢
🏅 2006 – DEUG in Computer Science with “Assez Bien” distinction 💻
🏅 2003 – Baccalauréat in Mathematics & Physics with “Assez Bien” distinction 📏

Publication Top Notes

  • Moisture content-mechanical property relationships for two okan (Cylicodiscus gabunensis) substitutes

    • Authors: Nyobe Charly Julien, Oum Lissouck René, Nyobe Nicolas Stephane, Goumgang Tassile Rolande, Ayina Ohandja Louis Max
    • Publication Year: 2025
    • DOI: 10.1080/17480272.2025.2476659

  • Mode I cracking of three tropical species from Cameroon: the case of bilinga, dabema, and padouk wood

    • Authors: Rosmi Biyo’o, Achille Bernard Biwole, Rostand Moutou Pitti, Charly Julien Nyobe, Benoit Ndiwe, Emile Jonathan Onana, Emmanuel Yamb
    • Publication Year: 2024
    • DOI: 10.1080/17480272.2024.2314750

  • Effect of slope of grain on mechanical properties of some tropical wood species

    • Authors: Charly Julien Nyobe, Nicolas Stéphane Nyobe, Jean Bertin Nkibeu, René Oum Lissouck, Louis Max Ayina Ohandja
    • Publication Year: 2024
    • DOI: 10.1080/17480272.2024.2356047

  • A Review on Methods for Determining the Vibratory Damping Ratio

    • Authors: Nkibeu Jean Bertin, Charly Julien Nyobe, Moussa Sali, Madja Doumbaye Jerémie
    • Publication Year: 2023
    • DOI: 10.4236/ojce.2023.132015

  • Determination of the Vibratory Damping Ratio: A Methodological Review

    • Authors: Nkibeu Jean Bertin, Charly Julien Nyobe, Moussa Sali, Madja Doumbaye Jerémie
    • Publication Year: 2023
    • DOI: 10.9734/bpi/rader/v9/1804g

  • Variability of the mechanical strength of Congo Basin timbers

    • Author: Charly Julien Nyobe
    • Publication Year: 2021
    • DOI: 10.1080/17480272.2021.1912173

Ceyhun Ozcelik | Environmental Science | Best Researcher Award

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Assoc. Prof. Dr. Ceyhun Ozcelik | Environmental Science | Best Researcher Award

Director of GIS & Remote Sensing Center at Mugla Sitki Kocman Universitesi, Turkey 

Ceyhun Özçelik, born on March 15, 1979, is a distinguished Turkish scientist specializing in hydrology, water resources, GIS, remote sensing, and hydraulics. With a Ph.D. in Hydraulic Engineering and Water Resources, he has made significant contributions to environmental and water-related studies. Over the years, he has held academic and research positions in prestigious institutions, including The University of Tokyo, Columbia University, and various universities in Turkey. Currently serving as an Associate Professor at Muğla University, he has published extensively on climate change, hydrology, and GIS applications. His expertise in spatial modeling and hydrological analysis has earned him recognition in scientific communities.

Professional Profile

Google Scholar

ORCID

Education

Dr. Özçelik obtained his Ph.D. in Hydraulic Engineering and Water Resources from Dokuz Eylül University (2002-2007). He completed his postdoctoral research at The University of Tokyo (2009-2011) and Columbia University (2008-2009). Additionally, he earned an M.S. in GIS from Dokuz Eylül University (2004-2006) and an M.S. in Hydraulic Engineering from Pamukkale University (1999-2002). His foundational education includes a B.S. in Civil Engineering from Pamukkale University (1995-1999). His academic journey reflects a strong interdisciplinary approach, integrating hydrology, remote sensing, and GIS technologies.

Professional Experience

Dr. Özçelik has accumulated extensive experience in academia and research. Since 2015, he has been an Associate Professor at Muğla University, specializing in hydrology and GIS. Previously, he served as an Assistant Professor at Muğla University (2010-2015) and held postdoctoral positions at The University of Tokyo and Columbia University. His earlier roles include research assistantships at Pamukkale and Dokuz Eylül Universities. His professional experience spans hydrological modeling, water resource management, and environmental impact assessments, contributing to scientific advancements in hydrology and climate change adaptation.

Awards & Honors

Dr. Özçelik’s research primarily focuses on hydrology, GIS, remote sensing, and water resource management. He specializes in drought assessment, flood modeling, climate change impact analysis, and spatial hydrological modeling. His work integrates remote sensing technologies with GIS-based hydrological simulations to enhance water resource planning and disaster management. Additionally, he investigates the effects of climate change on precipitation patterns, using advanced geospatial techniques to predict water availability and hydrological risks. His interdisciplinary approach has contributed to improved environmental sustainability strategies.

Research Focus

Dr. Özçelik’s research primarily focuses on hydrology, GIS, remote sensing, and water resource management. He specializes in drought assessment, flood modeling, climate change impact analysis, and spatial hydrological modeling. His work integrates remote sensing technologies with GIS-based hydrological simulations to enhance water resource planning and disaster management. Additionally, he investigates the effects of climate change on precipitation patterns, using advanced geospatial techniques to predict water availability and hydrological risks. His interdisciplinary approach has contributed to improved environmental sustainability strategies.

Skills

Dr. Özçelik possesses expertise in GIS, remote sensing, hydrological modeling, and statistical analysis. He is proficient in various hydrological software, including HEC-RAS, SWAT, and ArcGIS. His skills extend to programming for spatial analysis, particularly using Python and MATLAB. He has extensive experience in designing and implementing hydrological monitoring networks and utilizing AI for environmental data analysis. His ability to integrate multi-source data for climate studies and disaster risk assessment makes him a valuable expert in the field of hydrology.

Conclusion

Dr. Özçelik is a highly accomplished researcher with a robust academic portfolio, international experience, and a track record of influential publications. His expertise in hydrology, GIS, and water resources, combined with his leadership in research and academic mentorship, makes him a strong contender for the Best Researcher Award. Expanding his influence through larger funded projects and policy-making initiatives could further solidify his standing as a leading researcher in environmental sciences.

Publications Top Noted

  • Remote sensing of water depths in shallow waters via artificial neural networks

    • Authors: Ö Ceyhun, A Yalçın
    • Journal: Estuarine, Coastal and Shelf Science
    • Citations: 154
    • Year: 2010

  • Storm surge modelling with geographic information systems: estimating areas and population affected by cyclone Nargis

    • Authors: C Ozcelik, Y Gorokhovich, S Doocy
    • Journal: International Journal of Climatology
    • Citations: 16
    • Year: 2012

  • 22-23 Eylül 2015 Bodrum sel felaketi

    • Authors: K Benli, C Özçelik
    • Journal: Teknik Dergi
    • Citations: 6
    • Year: 2020

  • Investigation of wave attenuation mechanism under the downstream backwater effect

    • Authors: C Özçelik, M Doğan
    • Journal: Flow Measurement and Instrumentation
    • Citations: 6
    • Year: 2009

  • An improved time series model for monthly stream flows

    • Authors: C Özçelik, NO Baykan
    • Journal: Stochastic Environmental Research and Risk Assessment
    • Citations: 6
    • Year: 2009

  • Assessing drought in Turkish basins through satellite observations

    • Authors: C Ozcelik, MU Yilmaz, K Benli
    • Journal: International Journal of Climatology
    • Citations: 5
    • Year: 2024

  • Management of drought

    • Authors: NO Baykan, C Özçelik
    • Journal: Water Resources Management: Risks and Challenges for the 21st Century
    • Citations: 5
    • Year: 2006

  • An overland flood model for geographical information systems

    • Authors: C Ozcelik, Y Gorokhovich
    • Journal: Water
    • Citations: 4
    • Year: 2020

  • Regionalization approaches for the periodic parameters of monthly flows: a case study of Ceyhan and Seyhan River basins

    • Authors: C Özçelik, E Benzeden
    • Journal: Hydrological Processes
    • Citations: 3
    • Year: 2010

  • Evaluation of water quality monitoring networks using principal component analysis: a case of Gediz River Basin

    • Authors: B Yılmaz, C Özçelik
    • Journal: Celal Bayar University Journal of Science
    • Citations: 2
    • Year: 2018

  • Aylık akışlar için genelleştirilmiş periyodik bileşen modelleri

    • Authors: C Özçelik
    • Journal: PQDT-Global
    • Citations: 2
    • Year: 2007

  • Sığ sularda su derinliklerinin yapay sinir ağları kullanılarak uzaktan algılanması, I

    • Authors: C Özçelik, Y Arisoy
    • Conference: Uzaktan Algılama ve CBS Çalıştay ve Paneli
    • Citations: 2
    • Year: 2006

  • Kısa süreli aylık akış dizilerinin iyileştirilmesi

    • Authors: C Özçelik
    • Institution: Pamukkale Üniversitesi Fen Bilimleri Enstitüsü
    • Citations: 2
    • Year: 2002

  • Aylık akışların periyodik bileşenlerinin ölçeklendirilmesinde kullanılan parametrelerin kestirimi

    • Authors: C ÖZÇELİK, E BENZEDEN
    • Journal: İTÜDERGİSİ/d
    • Citations: 1
    • Year: 2011

  • The Watershed Flood Risk Index for urbanized watersheds

    • Authors: C Ozcelik, K Benli
    • Journal: Hydrological Sciences Journal
    • Citations: N/A
    • Year: 2025

  • Canal Istanbul and Political Dispute on Turkish Straits

    • Authors: C Özçelik, K Benli
    • Journal: Dicle Üniversitesi Mühendislik Fakültesi Mühendislik Dergisi
    • Citations: N/A
    • Year: 2021

  • A Regional Approach for Investigation of Temporal Precipitation Changes

    • Authors: C Ozcelik
    • Journal: Sustainability
    • Citations: N/A
    • Year: 2021

  • Bodrum September 22-23, 2015 Flood Disaster

    • Authors: C Ozcelik, K Benli
    • Publisher: Turkish Chamber Civil Engineers
    • Citations: N/A
    • Year: 2020

  • An Overland Flood Model for Geographical Information Systems

    • Authors: C Özçelik, Y Gorokhovich
    • Publisher: Mdpi
    • Citations: N/A
    • Year: 2020

  • The Probabilistic Distance Classifier for Land-Use Mapping

    • Authors: C Oezcelik
    • Journal: Environmental & Engineering Geoscience
    • Citations: N/A
    • Year: 2014

 

Manal Fawzy | Green Technology | Best Review Article Award

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Prof. Manal Fawzy | Green Technology | Best Review Article Award

Prof., Environmental Biotechnology , Environmental Sciences Dept, Faculty Of Science, Alexandria University, Egypt

Prof. Manal Fawzy Ahmed, an Environmental Phyto-technologist, is a founding member of the Environmental Sciences Department at Alexandria University. A distinguished researcher and academic, she leads the Green Technology Group and serves as Chair of the Egyptian National Man & Biosphere Commission to UNESCO. In recognition of her expertise, UNESCO appointed her to the International Advisory Committee for the Man and Biosphere Program (2023–2026). Prof. Fawzy has received numerous accolades, including the UNESCO Young Scientist Award (1991) and Sultan Qaboos Prize for Environmental Preservation (1997). Her pioneering work spans biodiversity conservation, restoration of degraded ecosystems, and nanotechnology-based water treatment. A prolific scholar, she has published 73 Scopus-indexed articles, a book, and nine book chapters while mentoring students and engaging with global scientific communities.

Profile 

Education 

Prof. Manal Fawzy Ahmed obtained her PhD in Plant Flora and Taxonomy from Alexandria University in collaboration with the Biosystematics Research Centre, Ottawa, Canada, in 1991. Her academic journey laid a robust foundation in plant sciences and environmental studies. During her doctoral research, she developed a comprehensive understanding of biodiversity and plant taxonomy, contributing significantly to these fields. Over the years, Prof. Fawzy expanded her expertise, embracing interdisciplinary approaches to address pressing environmental challenges. Through continuous professional development, including participation in 40 workshops and 42 national and international conferences, she honed her skills in environmental impact assessment, biodiversity monitoring, and phytoremediation techniques. This rich educational and professional background underpins her innovative research and leadership in environmental sciences.

Research Focus 

Prof. Manal Fawzy’s research emphasizes using indigenous plant species to remediate polluted environments and synthesize nanomaterials for wastewater treatment. She explores green biotechnology, focusing on the phytofabrication of nanocomposites with environmental and biomedical applications. Her groundbreaking work includes developing biochar, graphene, and metal-based nanomaterials for pollution control, as well as addressing environmental challenges like heavy metal contamination and antibiotic pollution. Prof. Fawzy also leads projects on biodiversity conservation and ecosystem restoration, applying sustainable and nature-based solutions. A passionate advocate of sustainable development, her research integrates advanced technologies with ecological principles to tackle global environmental issues effectively.

Publications 

 🌱 Sustainable synthesis of a novel hydrothermally carbonized AuNPs-hydrochar nanocomposite

🌍 From Waste to Worth: Upcycling Plastic into High-Value Carbon-Based Nanomaterials
🧪 Sustainable fabrication of dimorphic plant-derived ZnO nanoparticles
💧 Retention and recycling of granules in continuous flow-through systems
🌿 Antioxidant, anticancer, and photocatalytic potentials of gold nanoparticles
📘 Artificial Intelligence and Modeling for Water Sustainability
📚 Artificial Intelligence for Sustainable Water Management and Treatment
🌀 Efficient Removal of Phosphate by Phyto-Graphene Composite
🌊 Green synthesis of zinc oxide nanoparticles using Sea Lavender
🧬 Synergetic effect of green synthesized reduced graphene oxide
🌟 Phytofabrication of bimetallic silver-copper/biochar nanocomposite
🔬 Green synthesis of bimetallic Ag/ZnO@Biochar nanocomposite
⚛️ Novel Biogenic Synthesis of Ag@Biochar Nanocomposite
☢️ Facile Synthesis of Gold Nanoparticles for Anticancer and Environmental Applications
🧪 Optimization of mild steel corrosion inhibition by plant extracts
💡 Catalytic and Medical Potential of Phyto-Functionalized Nanocomposites
🌱 Green Synthesis of Nano-Zero-Valent Iron Using Plant Extracts
🦠 COVID-19 transmission, persistence, and nanotherapy
🌿 Comparative study of Phragmites australis extracts for gold nanoparticle synthesis
🌍 Techno-economic and environmental approaches of Cd²⁺ adsorption by olive leaves