Ali Danandeh Mehr | Environmental Science | Best Researcher Award

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Prof. Dr. Ali Danandeh Mehr | Environmental Science | Best Researcher Award

Professor | The University of Antalya Bilim University | Turkey

Prof. Dr. Ali Danandeh Mehr is a prominent scholar in civil and environmental engineering, specializing in hydrology, drought modeling, and climate variability. His research integrates cutting-edge computational approaches such as machine learning, genetic programming, and hybrid data-driven models to solve complex water-related challenges. He has published 115 scientific documents in reputed international journals, advancing the field of hydroinformatics and predictive environmental modeling. With 4,186 citations and an h-index of 37, his research reflects significant global impact and scholarly recognition. His work focuses on understanding extreme climatic events, improving forecasting accuracy, and supporting sustainable water resource planning. Through innovative methodologies and interdisciplinary approaches, his contributions continue to enhance resilience and decision-making in water resources engineering and environmental sustainability.

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Featured Publications

Nazmunnahar Nazmunnahar | Environmental Science | Research Excellence Award

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Mrs. Nazmunnahar Nazmunnahar | Environmental Science | Research Excellence Award

PhD Candidate | The University of Manchester | United Kingdom

Mrs. Nazmunnahar Nazmunnahar, in collaboration with Aman Ul Azam Khan, Mehedi Hasan Roni, Aurghya Kumar Saha, Zarin Tasnim Bristy, Abdul Baqui, and Abdul Md Mazid, co-authored a significant study on sustainable smart textile development using e-waste materials. The research focuses on fabricating twelve types of conductive threads by twisting copper filaments with cotton and polyester, followed by coating with carbon paste enriched with sea salt, sourced from recycled dry cell batteries. The developed threads exhibited exceptionally low electrical resistance, with the best-performing variant achieving 0.0164 Ω/cm. Comparative analysis revealed performance equal to or better than commercial conductive threads. The threads maintained stability under bending, twisting, and wash cycles, proving their suitability for wearable electronics, flexible circuits, and eco-friendly textile innovations.

Julia Grosinger | Environmental Science | Research Excellence Award

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Mrs. Julia Grosinger | Environmental Science | Research Excellence Award

Investigadora | The University of  ICTA Universitat Autonoma De Barcelona | Spain

Mrs. Julia Grosinger is a dedicated researcher specializing in social-ecological systems, agro-food studies, and post-growth transformations in rural contexts. Her academic work focuses on understanding landscape governance, environmental justice, and the co-production of nature’s contributions to people. Through interdisciplinary and case-based methodologies, she examines how human needs can be spatially integrated into sustainability strategies. She has contributed to several international journals, addressing themes such as biodiversity governance, environmental disinformation, and participatory approaches to sustainability. Her publications reflect strong engagement with ecological economics and sustainability science. With 9 scholarly documents, 68 citations, and an h-index of 5, she has established a credible academic presence, contributing valuable insights into the transition toward sustainable and equitable socio-ecological systems.

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Zhujun Gu | Environmental Science | Research Excellence Award

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Prof. Dr. Zhujun Gu | Environmental Science | Research Excellence Award

Director | The University of Pearl River Water Resources Research Institute | China

Prof. Dr. Zhujun Gu is an accomplished environmental scientist known for his contributions to AI-based remote sensing and ecological monitoring systems. His research focuses on vegetation structure estimation, soil and water conservation, and intelligent supervision of river–lake ecosystems using advanced data-driven approaches. With 33 publications, 503 citations, and an h-index of 14, his work reflects consistent scientific influence and innovation. He pioneered 3D vegetation volume analysis, improving the accuracy of environmental modeling and conservation strategies. His methodologies integrate multi-angle imaging, UAV data, and AI tools to enhance decision-making in environmental management. His research supports sustainable development by providing scalable solutions for ecological restoration, resource monitoring, and environmental protection across diverse geographic regions.

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Mapping Tropical Dry Forest Succession Using Multiple Criteria Spectral Mixture Analysis

– ISPRS Journal of Photogrammetry and Remote Sensing, 2015

Ahmed Elgharib | Environmental Science | Research Excellence Distinction Award

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Mr. Ahmed Elgharib | Environmental Science | Research Excellence Distinction Award

PhD. Candidate | The University of  Malaga | Egypt

Mr. Ahmed Elgharib  dedicated researcher in terrestrial ecology and environmental science has contributed to advancing knowledge in arid ecosystem restoration, plant biodiversity, and conservation planning. The research focuses on flora identification, seed banking, vegetation mapping, and ecological rehabilitation strategies aligned with international conservation frameworks such as IUCN standards. Emphasis is placed on sustainable ecosystem management, community-based conservation, and the restoration of degraded desert landscapes. Scientific contributions include studies on vegetation dynamics, soil seed banks, and species conservation in arid and semi-arid regions. With 7 published documents, 12 citations, and an h-index of 3, the author demonstrates emerging research impact in environmental science. The work supports biodiversity preservation, climate resilience, and long-term sustainability through innovative ecological methodologies and applied conservation practices in fragile ecosystems.

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Featured Publications

Hee Kyung Park | Environmental | Best Researcher Award

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Ms. Hee Kyung Park | Environmental | Best Researcher Award

Post-master’s Researcher | Korea Institute of Civil Engineering and Building Technology | South Korea

Ms. Hee Kyung Park is a Master’s Degree Researcher at the Department of Environmental Research, Korea Institute of Civil Engineering and Building Technology, whose work focuses on the quantitative risk assessment and safety management of next-generation clean energy systems. Her research emphasizes decarbonized fuels such as hydrogen and ammonia, exploring their combustion behavior, explosion risks, and fire dynamics through both experimental and computational methods. She has conducted extensive studies involving cone calorimetry, toxicity testing, and fire dynamics simulation to enhance safety protocols in energy infrastructure. Her recent publications in leading KCI and SCI(E) journals address crucial topics, including consequence analysis of hydrogen leakage accidents, ammonia fuel risk evaluation in combined cycle power plants, and semi-quantitative safety management frameworks using the Bow-tie method. Additionally, she has contributed to major national research projects developing hydrogen turbine combustor testing methods and retrofitting technologies for gas turbines co-firing hydrogen. Through her interdisciplinary approach integrating thermal engineering, safety systems, and computational risk analysis, Ms. Hee Kyung Park plays a key role in advancing safer, sustainable, and high-efficiency energy technologies that align with global carbon neutrality goals. Her expertise and scholarly output, reflected in 15 citations by 14 documents across 8 publications with an h-index of 3, continue to contribute significantly to the evolution of hydrogen and ammonia-based energy systems within industrial safety and environmental research domains.

Profiles: Scopus | Orcid 

Featured Publications

Park, H. K. (2023, November). Consequence analysis on the leakage accident of hydrogen fuel in a combined cycle power plant: Based on the effect of regional environmental features. Journal of Hydrogen and New Energy.

Park, H. K. (2024, January). Experimental investigation on the measurement performance of high-speed ultrasonic wave thermometry in ambient- and high-temperature environments. Applied Thermal Engineering.

Park, H. K. (2024, April). Semi-quantitative risk assessment using Bow-tie method for the establishment of safety management system of hydrogen fuel storage facility in a combined cycle power plant. Journal of the Korean Society of Safety.

Park, H. K. (2024, April). Analysis of damage impact range according to the NG/NH3 mixing ratio when applying ammonia as fuel for a combined cycle power plant using an ALOHA program. Journal of the Korean Institute of Gas.

Park, H. K. (2024, March). Fire dynamics and evacuation simulation study on the library adapting BIPV based on the experimental data of a cone calorimeter. The Korean Institute of Fire Science & Engineering.

Mohamed Bey Zekkoub | Environmental Modelling | Young Researcher Award

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Dr. Mohamed Bey Zekkoub | Environmental Modelling | Young Researcher Award

Researcher | Swiss Federal Laboratories for Materials Science and Technology | Switzerland

Dr. Mohamed Bey Zekkoub is a dedicated environmental scientist and water expert with extensive experience in water quality analysis, environmental risk assessment, and predictive modeling of complex environmental systems. His work bridges experimental research, numerical simulations, and machine learning approaches to understand and mitigate the impacts of chemical pollutants and plastic waste in aquatic ecosystems. He has contributed to major studies on industrial effluents, riverine pollution, and the fate of polymers in water systems, providing actionable insights for sustainable water management and ecological protection. Dr. Mohamed Bey Zekkoub has held research and consultancy roles in leading institutions, where he developed advanced numerical models, conducted ecological risk assessments, and guided mitigation strategies for environmental compliance. His expertise spans hydro informatics, chemistry, environmental modeling, and natural resource management, enabling him to support evidence-based policy development and sustainable practices. He has been recognized for his innovative contributions with prestigious awards and has presented his research at international conferences while publishing in top-tier journals. In addition to research, he has actively contributed to the development of environmental modeling tools, enhancing the accuracy of pollutant transport simulations. With a strong foundation in computational fluid dynamics, numerical modeling, and programming languages, Mohamed combines technical proficiency with a passion for addressing global environmental challenges, particularly in water security, pollution management, and the sustainable stewardship of natural resources. He continues to advance knowledge in environmental science through interdisciplinary collaboration, experimentation, and innovative modeling approaches to support a healthier and more resilient planet. His work has been cited once since 2020, with an h-index of 1, reflecting recognition of his contributions to the field.

Profile: Google Scholar

Featured Publications

Bey-Zekkoub, M., Tassi, P., Lucas, C., & Chhim, N. (2025). Modeling solute transport in rivers: Analytical and numerical solutions. Environmental Modelling & Software, 106580.

Bey-Zekkoub, M., Tassi, P., & Chhim, N. (2025). Assessing the impacts of sodium polyacrylate discharge into the Seine River: A numerical modeling approach. Journal of Contaminant Hydrology, 104740.

Bey-Zekkoub, M., Tassi, P., Chhim, N., Bretaud, M., & Harnichard, A. (2024). Interaction between sodium polyacrylate and sediment transport in a simplified river reach configuration. Telemac User Conference TUC 2024.

Bey-Zekkoub, M., Tassi, P., Lucas, C., & Chhim, N. (2024). Analytical and numerical solutions for one-dimensional solute transport in rivers: Advection, adsorption, degradation, and bed accumulation. Journal of Hydrology.

Salar Salah Muhy Al-Din | Environmental Science | Best Researcher Award

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Assist. Prof. Dr. Salar Salah Muhy Al-Din | Environmental Science | Best Researcher Award

Assistant Professor | Arkin University of Creative Arts and Design | Turkey

Assist. Prof. Dr. Salar Salah Muhy Al-Din is a distinguished academic and researcher in architecture and sustainable design, currently serving in the Faculty of Design at Arkin University of Creative Arts and Design, Kyrenia, Northern Cyprus. He holds a B.Eng. in Civil and Surveying Engineering from the University of Baghdad, an M.Sc. in Sustainable Architecture from Bharaty Vidyapeeth University, India, and a Ph.D. in Architecture from Girne American University, North Cyprus. His research focuses on sustainable and climate-responsive architectural design, indoor thermal comfort, and the integration of smart and salutogenic design principles in buildings. He has contributed extensively through teaching undergraduate and postgraduate courses, supervising Master’s theses on energy optimization, healthcare architecture, and project management, and publishing in top-tier international journals on thermal comfort, sustainable building materials, and smart design policies. Assist. Prof. Dr. Salar Salah Muhy Al-Din has initiated and led scientific projects including the establishment of the Journal of Salutogenic Architecture and regional collaborations for sustainable city planning in Kurdistan. He has received awards for innovative design projects and best paper presentations at international architecture conferences. He serves as Editor-in-Chief and editorial board member of multiple journals, session chair at global conferences, and is an active member of professional organizations such as the Iraqi Engineers Union, Kurdistan Engineers Union, and international smart city networks. His work bridges practical architectural solutions with environmental sustainability, influencing policy, urban planning, and the next generation of architects through innovative research and education. He has 22 citations by 19 documents with an h-index of 3.

Profile: Scopus | Orcid | Google Scholar | LinkedIn | Researchgate 

Featured Publications

Amen, M. A., Afara, A., & Muhy-Al-Din, S. S. (2024). The persuasibility of globe thermometer in predicting indoor thermal comfort using non-standard globe diameter: Row houses of semi-arid climates as case studies. Civil Engineering and Architecture, 12(1), 425–435.

Muhy Al-Din, S. S. (2017). The influence of Mediterranean modernist movement of architecture in Lefkosa: The first and early second half of 20th century. Journal of Contemporary Urban Affairs, 1(1), 10–23.

Shawkat, L. W., Al-Din, S. S. M., & Kuzovic, D. (2018). Opportunities for practicing sustainable building construction in Kurdistan region, Iraq. Journal of Contemporary Urban Affairs, 2(1), 69–101.

Muhy Al-Din, S. S., Iranfare, M., & Surchi, Z. N. S. (2017). Building thermal comfort based on envelope development: Criteria for selecting right case study in Kyrenia-North Cyprus. Energy Procedia, 115, 80–91.

Muhy Al-Din, S. S. (2019). Evaluation of the sustainable aspects in housing sector to overcome housing stress in Northern Iraq. Journal of Contemporary Urban Affairs.

Jennifer Goldstein | Environmental Science | Best Researcher Award

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Dr. Jennifer Goldstein | Environmental Science | Best Researcher Award

Professor | California State University | United States

Dr. Jennifer Goldstein is a distinguished scholar, educator, and leader whose career bridges research, practice, and policy in education. She earned her doctorate in Administration and Policy Analysis with a minor in Sociology at Stanford University and began her academic path with a degree in Social Sciences from the University of California, Berkeley. Her professional journey includes faculty appointments at Baruch College, City University of New York, and her current role as Professor of Educational Leadership at California State University, Fullerton, where she also served as Department Chair. She has directed innovative programs such as Leadership Education for Anaheim Districts and has held leadership roles with the California Office to Reform Education. Dr. Jennifer Goldstein research examines teacher evaluation, peer review, distributed leadership, and university-district partnerships for leadership preparation. Her published works, including books, peer-reviewed articles, and policy briefs, contribute significantly to debates on accountability, equity, and professionalism in education. She has been invited to speak nationally, consulted for teacher unions and educational organizations, and collaborated on major grants and research-practice partnerships. Her teaching spans doctoral, master’s, and credential programs, emphasizing leadership development, instructional practice, and equity-focused preparation. Recognized with numerous honors for scholarship, teaching, and service, she also contributes through editorial and reviewing roles for leading journals and presses. Beyond academia, she is active in community service, civic engagement, and interfaith initiatives, reflecting her commitment to equity and justice both in schools and society. Her career embodies a blend of rigorous scholarship, transformative leadership, and engaged citizenship.

Profile: Orcid | Google Scholar

Featured Publications

Goldstein, J. (2004). Making sense of distributed leadership: The case of peer assistance and review. Educational Evaluation and Policy Analysis, 26(2), 173–197.

Goldstein, J. (2007). Easy to dance to: Solving the problems of teacher evaluation with peer assistance and review. American Journal of Education, 113(3), 479–508.

Goldstein, J. (2010). Peer review and teacher leadership: Linking professionalism and accountability. Series on School Reform. Teachers College Press.

Goldstein, J. (2005). Debunking the fear of peer review: Combining supervision and evaluation and living to tell about it. Journal of Personnel Evaluation in Education, 18(4), 235–252.

Goldstein, J., Lozano, M., & Panero, N. S. (2025). Metabolizing the challenges to partnership: Partner learning in a university-district partnership for leadership preparation. Journal of Research on Leadership Education, 20(1), 32–58.

 

CHANCHAL KUMAR KUNDU | Environmental | Best Researcher Award

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Dr. CHANCHAL KUMAR KUNDU | Environmental | Best Researcher Award 

Assistant Professor, at Jashore University of Science and Technology, Bangladesh.

Dr. Chanchal Kumar Kundu is a dynamic Assistant Professor at the Department of Textile Engineering, Jashore University of Science and Technology, Bangladesh. With a Ph.D. in Safety Science and Engineering from the University of Science and Technology of China, he specializes in flame retardant synthesis, functional textiles, and nanofabrication. Dr. Kundu’s work addresses critical sustainability challenges in the textile and polymer industries, blending advanced materials science with environmental responsibility. His academic and industrial experience spans from Bangladesh to Sweden and China, marked by prolific publications and impactful research contributions. Committed to fostering innovation, Dr. Kundu has engaged in diverse roles, including postdoctoral fellowships at Henan University and The Hong Kong Polytechnic University, focusing on interdisciplinary research and green flame retardant technologies. His dedication to education and sustainability-driven textile engineering continues to inspire the next generation of researchers and industry practitioners.

Professional Profile

Scopus

ORCID

Google Scholar

🎓 Education 

Dr. Kundu’s educational journey has been rooted in both Bangladesh and globally renowned institutions. He completed his Ph.D. in Safety Science and Engineering in 2018 at the University of Science and Technology of China, researching innovative flame retardant treatments for polyamide 66 fabrics. Earlier, he earned dual Master’s degrees from the University of Borås, Sweden, in 2010 (Industrial Engineering with a focus on Applied Textile Management) and 2011 (Mechanical Engineering, Textile Technology). His master’s theses explored bio-based composites and sustainable supply chains in textile retail, demonstrating his early commitment to green technologies. Dr. Kundu’s undergraduate degree in Textile Technology was obtained from the University of Dhaka, Bangladesh, with an influential project on azoic dyeing. This blend of rigorous training and global exposure has provided him with a unique perspective on sustainable solutions in textile engineering, underpinning his dedication to functional and eco-friendly materials.

💼 Experience 

Dr. Kundu has amassed extensive experience in textile engineering, teaching, and research. He currently serves as an Assistant Professor at Jashore University of Science and Technology, focusing on technical textiles, functional finishing, and sustainability. Prior to this, he was a postdoctoral fellow at The Hong Kong Polytechnic University (2024–2025) and Henan University in China (2018–2020), where he conducted cutting-edge research on flame retardant and functional textile materials. His career began as a Production Executive at Metro Knitting & Dyeing Mills Ltd., followed by a Technical Sales Executive role at K.B. Traders. He transitioned to academia as a Lecturer at Primeasia University in 2006, later becoming an Assistant Professor at BGMEA University of Fashion and Technology. These diverse roles have given him a robust foundation in textile processing, industrial practices, and academic mentorship. His experience bridges industry, research, and sustainability, enhancing his impact on textile innovation.

🔬 Research Interests 

Dr. Kundu’s research is at the cutting edge of sustainability and functional innovation in textiles. His primary focus lies in the synthesis and application of green flame retardants, integrating natural and eco-friendly materials to improve fire safety in synthetic fabrics like polyamide 66. Beyond flame retardancy, his interests span functional textiles and polymer composites, including hydrophilic, electro-conductive, and antibacterial textile surfaces. He is passionate about coating and nanofabrication techniques to enhance textile performance and extend product life cycles. Dr. Kundu’s work also embraces the burgeoning field of smart and wearable textiles, seeking to integrate electronic functionalities while ensuring ecological sustainability. His projects consistently address waste management and circular economy principles within the textile industry, emphasizing a holistic approach that aligns technological advancements with environmental stewardship. Dr. Kundu’s forward-thinking mindset drives interdisciplinary collaborations and real-world impact in textile engineering.

🏆 Awards 

Dr. Kundu’s dedication to sustainable textile engineering has been recognized through impactful research grants and a robust scholarly record. While his CV does not list specific awards, his Google Scholar metrics—including an h-index of 20 and i10-index of 27—highlight his strong influence in the field. His collaborative work on flame retardant and multifunctional coatings has been widely cited and published in prestigious journals like Advanced Sustainable Systems and International Journal of Biological Macromolecules. Dr. Kundu’s active participation in global conferences and specialized training—such as the 2023 fire safety engineering materials program at the University of Science and Technology of China—further exemplifies his leadership and expertise. These accomplishments position him as a promising candidate for awards recognizing innovation and sustainability in textiles. His work demonstrates the power of integrating green materials science with practical industry solutions, championing the next generation of eco-conscious textile technologies.

📚Top Noted  Publications 

Dr. Kundu is a prolific author, with numerous high-impact publications in the field of sustainable and functional textiles. Some of his notable works include:

  • Green flame retardants for sustainable polymers
    Advanced Sustainable Systems, 2025.
    Cited by 15 articles.
    [Link]

  • Micro crystalline cellulose aided surface modification
    International Journal of Biological Macromolecules, 2024.
    Cited by 10 articles.
    [Link]

  • Polypyrrole-modified multi-functional coatings
    Journal of Coatings Technology and Research, 2023.
    Cited by 12 articles.
    [Link]

  • Flame retardant coatings from bio-derived chitosan
    ACS Omega, 2022.
    Cited by 20 articles.
    [Link]

Conclusion

Overall, Dr. Chanchal Kumar Kundu is an exceptional candidate for the Best Researcher Award. His impactful publications, consistent research productivity, and dedication to sustainable and functional textiles make him stand out as a global leader in his field. His international collaborations and innovative mindset have positioned him as a significant contributor to the advancement of textile technology, particularly in environmentally responsible practices. Honoring Dr. Kundu with this award would be a fitting recognition of his dedication to research excellence and global collaboration.