Mona Maze | Environmental Studies | Best Researcher Award

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Assist. Prof. Dr. Mona Maze | Environmental Studies | Best Researcher Award

Assistant Professor | Agricultural Research Center | Egypt

Dr. Mona Maze is an Assistant Professor at the Agricultural Research Center, Central Laboratory for Agricultural Climate in Egypt, and an accomplished scholar in agricultural sciences with expertise in climate change, plant nutrition, data-driven agriculture, and digital innovation for sustainable farming. She earned her Ph.D. in Plant Nutrition from the Technical University of Munich, where she developed predictive models for wheat performance under water stress and climate change, building on an M.Sc. in Plant Ecology from Cairo University and a B.Sc. in Science from Ain Shams University, further strengthened by advanced training in computer science, machine learning, and spatial data science. Her professional career spans Egypt and Germany, including roles at the Bavarian State Research Center for Agriculture, where she advanced renewable energy and sustainability projects, and leadership in national and USAID-funded projects that integrate artificial intelligence, remote sensing, and big data into agricultural systems. She has spearheaded initiatives such as Egypt’s Digital Dynamic Agricultural Map and web-based decision support tools for irrigation, fertilization, and crop protection, in collaboration with leading organizations including Microsoft and ESRI. Dr. Maze’s research focuses on climate change impacts on agriculture, greenhouse gas mitigation, precision farming, and the integration of AI with ecological modeling, contributing significantly to Egypt’s greenhouse gas inventory and advancing climate-smart agriculture practices. With a distinguished record of publications, international collaborations, and technology-driven solutions that enhance resilience and productivity, she exemplifies innovative leadership at the intersection of environmental science and digital transformation, making her a strong candidate for recognition.

Profiles: Scopus | ORCID

Publications

Maze, M., Attaher, S., Taqi, M. O., Elsawy, R., Gad El-Moula, M. M. H., Hashem, F. A., & Moussa, A. S. (2025). Enhanced agricultural land use/land cover classification in the Nile Delta using Sentinel-1 and Sentinel-2 data and machine learning. ISPRS Journal of Photogrammetry and Remote Sensing, 209, 282–296.

Maze, M., Attaher, S., Taqi, M. O., Elsawy, R., Gad El-Moula, M. M. H., Hashem, F. A., & Moussa, A. S. (2025, February 17). Exploring diverse AI models for enhanced land use and land cover classification in the Nile Delta, Egypt using Sentinel-based data [Preprint]. Preprints.

Salah, M., Maze, M., & Tonbol, K. (2024). Intersecting vulnerabilities: Climate justice, gender inequality, and COVID-19’s impact on rural women in Egypt. Multidisciplinary Adaptive Climate Insights, 1(2), 1041–1058.

Maze, M., Taqi, M. O., Tolba, R., Abdel-Wareth, A. A. A., & Lohakare, J. (2024). Estimation of methane greenhouse gas emissions from livestock in Egypt during 1989 to 2021. Scientific Reports, 14, 12345.

Hijazi, O., Schoo, D., Schweiger, A., Maze, M., & Bernhardt, H. (2023). Comparative life cycle assessment of FarmBot technology with conventional and organic agriculture. In Proceedings of the 2023 ASABE Annual International Meeting (Paper No. 2300749). American Society of Agricultural and Biological Engineers.

Maofu Pang | Plastics Upcycling | Best Researcher Award

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Dr. Maofu Pang | Plastics Upcycling | Best Researcher Award 

Lecturer at Ludong University, China.

Dr. Maofu Pang is a dedicated chemist whose research bridges organometallic chemistry, catalysis, and sustainable material science. His pioneering work in cobalt- and iron-catalyzed transformations, coupled with recent advances in plastic recycling and upcycling, has significantly contributed to the advancement of green chemistry and the circular economy. Through high-impact publications and innovative projects, he has emerged as a promising researcher committed to environmental sustainability and the development of efficient catalytic systems.

Proffesional Profile

Scopus 

Education

Dr. Pang’s academic journey reflects a strong foundation in chemistry and chemical engineering. He began with a bachelor’s degree in Chemical Engineering and Technology, where he developed an interest in catalysis and reaction mechanisms. He further advanced his expertise with a master’s degree in Organic Chemistry, focusing on cobalt-catalyzed hydroboration of imines and alkenes, emphasizing metal-ligand cooperation for B–H bond cleavage. His doctoral studies in Organometallic Chemistry deepened his research into cobalt-catalyzed partial transfer hydrogenation of N-heterocycles and the synthesis of heteronuclear complexes. Mentored by distinguished professors, he developed advanced skills in designing catalytic systems for selective organic transformations, laying the groundwork for his subsequent career in sustainable chemistry.

Experience

Currently serving as a faculty member at the School of Chemistry and Chemical Engineering, Ludong University, Dr. Pang’s research spans catalysis, plastic upcycling, and sustainable chemistry. His expertise lies in the design and mechanistic understanding of transition-metal complexes, particularly cobalt, iron, and manganese catalysts, applied to hydrogenation, hydroboration, and polymer degradation processes. His recent work has expanded into catalytic upcycling of polyesters and polycarbonates, transforming plastic waste into value-added chemicals through environmentally friendly methodologies. This innovative approach integrates catalysis with sustainability, directly addressing global environmental challenges.

Research Focus

Dr. Maofu Pang’s research centers on the design, development, and mechanistic study of transition-metal catalysts for sustainable chemical transformations. His work spans cobalt-, iron-, and manganese-based systems with applications in hydrogenation, hydroboration, and polymer degradation. By combining fundamental organometallic chemistry with applied catalysis, he has advanced methods for the selective transformation of N-heterocycles and olefins, while more recently pioneering catalytic strategies for the upcycling of polyesters and polycarbonates into value-added chemicals. This integrated approach addresses both academic challenges in catalytic mechanism design and practical global issues of plastic waste valorization, positioning his research at the intersection of catalysis, green chemistry, and the circular economy.

Publication Top Note

Title: Efficient Catalytic Upcycling of Polyester and Polycarbonate Plastics Using an NNN-Based Iron Catalyst
Authors: Xiaoxiao Chu, Guoren Zhou, Chongyan Ren, Xiaoshi Zhang, Maofu Pang*, Nuoyan Zhao, Hongwu Zhang
Summary: This work presents an NNN-based iron catalyst that efficiently converts polyester and polycarbonate plastics into valuable chemicals under mild, sustainable conditions. The study highlights iron as a low-cost, eco-friendly alternative for scalable plastic upcycling in the circular economy.

Conclusion

Dr. Maofu Pang exemplifies the integration of fundamental catalysis with sustainable applications. His academic background, innovative research in transition-metal catalysis, and impactful contributions to plastic recycling position him as a leading researcher in green chemistry. With his dedication to advancing circular economy principles and addressing environmental challenges, he stands as a highly deserving candidate for recognition through an award nomination.

Itai Beeri | Environmental Studies| Best Researcher Award

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Prof. Itai Beeri | Environmental Studies| Best Researcher Award

Professor at University of Haifa, Israel

Prof. Dr. Uwe Waller is a seasoned and accomplished researcher whose interdisciplinary work in sustainable aquaculture, renewable energy, and biological engineering stands at the intersection of scientific innovation and practical sustainability. His applied contributions have reshaped marine research infrastructure and aquaculture practices in Germany and internationally. His strong industry collaborations, academic mentorship, and global volunteerism further establish him as a leader in translating scientific knowledge into real-world solutions.

Professional Profiles📖

🎓 Education

Prof. Dr. Uwe Waller studied biology at the Free University of Berlin and the Christian-Albrechts-University in Kiel. He obtained his diploma in biology (Diplom Biologe) and later earned his doctorate (Dr. rer. nat.) with a focus on marine sciences. His academic training laid the foundation for his interdisciplinary work combining biology, marine sciences, and engineering.

🧪 Experience

Prof. Waller has had a distinguished academic and applied research career in marine and aquaculture sciences. His early scientific work was conducted at the Institut für Meereskunde (IfM) in Kiel, where he specialized in fisheries biology, fish physiology, fish behavior, and aquaculture biotechnology. He supervised doctoral students, served on the board of the IfM, and curated the Kiel Aquarium, where he modernized technical systems to meet international standards.

🏅 Awards and Honors

Throughout his career, Prof. Dr. Uwe Waller has received multiple honors for his pioneering contributions to sustainable aquaculture and environmental engineering. In 2001, he was awarded the prestigious “Maritime Technology” Prize by the K.E.R.N region in Schleswig-Holstein for his innovative work in aquaculture system development. His scientific and economic concept for the Gesellschaft für Marine Aquakultur (GMA) in Büsum was a milestone, leading to the creation of a prominent marine research facility now affiliated with the Fraunhofer Society. In 2012, the Deutsche Bundesstiftung Umwelt (DBU) recognized his integrated recirculating aquaculture systems as a model for sustainability. His work on the PISA project demonstrated the feasibility of sustainable, animal welfare-compliant closed-loop aquaculture and received international recognition. Additionally, Waller’s expertise has been sought globally, including involvement in German aid programs such as the post-tsunami recovery in Southeast Asia, underlining his role in international development and science diplomacy.

🔬 Research Focus

Prof. Waller’s research is centered on integrated recirculating aquaculture systems (RAS), including fish and prawn farming, automation, and remote control technologies. He has pioneered secondary recycling systems involving microalgae and plants and has developed photobioreactor-based microalgae production systems. His work emphasizes sustainable aquaculture through biological process engineering and the integration of aquaculture with renewable energy and nutrient recycling.

🛠️  Research Skills

Prof. Waller possesses a unique blend of scientific and engineering competencies that bridge biology, environmental science, and technology. His core skills include the design and optimization of recirculating aquaculture systems (RAS), bioprocess engineering, and the development of integrated recycling systems for water, nutrients, and energy. He is proficient in microalgae cultivation using photobioreactors, aquaculture automation, and remote monitoring technologies. His teaching and academic leadership have been shaped by a strong foundation in biology, marine ecology, and renewable energy systems, particularly in engineering curricula. In addition, he has extensive experience in project management, interdisciplinary collaboration, and international capacity building, having worked with universities, industry partners, and development agencies across Europe and Asia. His ability to integrate natural and engineering sciences has established him as a leading figure in sustainable aquaculture and environmental systems design.

✅ Conclusion 

Prof. Dr. Uwe Waller is highly suitable for the Best Researcher Award, particularly one that values applied science, sustainability, interdisciplinary integration, and global impact. His profile exemplifies the modern researcher—one who not only generates knowledge but also implements it for societal and environmental benefit. While enhancing publication visibility could strengthen his candidacy in highly competitive academic contexts, his comprehensive contributions already distinguish him as a transformative figure in his field.

Publications Top Notes📚

  • Change-oriented organizational citizenship behavior in public administration: The power of leadership and the cost of organizational politics
    Authors: E. Vigoda-Gadot, I. Beeri
    Journal: Journal of Public Administration Research and Theory, 22(3), 573–596
    Citations: 440
    Year: 2011

  • Advancing ethics in public organizations: The impact of an ethics program on employees’ perceptions and behaviors in a regional council
    Authors: I. Beeri, R. Dayan, E. Vigoda-Gadot, S.B. Werner
    Journal: Journal of Business Ethics, 112, 59–78
    Citations: 294
    Year: 2013

  • Does performance management relate to good governance? A study of its relationship with citizens’ satisfaction with and trust in Israeli local government
    Authors: I. Beeri, A. Uster, E. Vigoda-Gadot
    Journal: Public Performance & Management Review
    Citations: 215
    Year: 2018

  • Group-level organizational citizenship behavior in the education system: A scale reconstruction and validation
    Authors: E. Vigoda-Gadot, I. Beeri, T. Birman-Shemesh, A. Somech
    Journal: Educational Administration Quarterly, 43(4), 462–493
    Citations: 183
    Year: 2007

  • Wind(ow) of Change: A Systematic Review of Policy Entrepreneurship Characteristics and Strategies
    Authors: N. Frish Aviram, N. Cohen, I. Beeri
    Journal: Policy Studies Journal
    Citations: 155
    Year: 2019

  • Low-level bureaucrats, local government regimes and policy entrepreneurship
    Authors: I.B. Neomi Frisch-Aviram, N. Cohen
    Journal: Policy Sciences, 51(1), 39–57
    Citations: 99
    Year: 2018

  • Local political corruption: Potential structural malfunctions at the central–local, local–local and intra-local levels
    Authors: I. Beeri, D. Navot
    Journal: Public Management Review, 15(5), 712–739
    Citations: 83
    Year: 2013

  • Lack of Reform in Israeli Local Government and Its Impact on Modern Developments in Public Management
    Author: I. Beeri
    Journal: Public Management Review
    Citations: 50
    Year: 2020

  • Don’t push too hard. Examining the managerial behaviours of local authorities in collaborative networks with nonprofit organisations
    Authors: A. Uster, I. Beeri, D. Vashdi
    Journal: Local Government Studies, 45(1), 124–145
    Citations: 44
    Year: 2019

  • Turnaround management strategies in public systems: The impact on group-level organizational citizenship behavior
    Author: I. Beeri
    Journal: International Review of Administrative Sciences, 78(1), 158–179
    Citations: 40
    Year: 2012

Gulam Husain Patel | Life Cycle Assessment | Best Academic Researcher Award

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Mr. Gulam Husain Patel | Life Cycle Assessment | Best Academic Researcher Award

Junior researcher at Lappeenranta-Lahti University of Technology, Finland

Gulam Husain Patel is a passionate environmental and energy engineer based in Lappeenranta, Finland 🌍. With a strong academic foundation in mechanical, environmental, and power plant engineering, he is currently pursuing his Doctor of Science degree in Energy Systems at LUT University 🎓. Gulam’s work centers around sustainable hydrogen production and life cycle assessment (LCA), aiming to combat climate change through innovative energy solutions 🌱⚡. He has held roles in research, teaching, and industry, reflecting his well-rounded capabilities. Gulam brings international exposure from India, Russia, and Finland and is committed to integrating engineering expertise with sustainability science for real-world impact. Fluent in English, Hindi, and Urdu 🗣️, he also engages in public science education. With a growing publication record and keen interest in Power-to-X technologies, he represents the new wave of environmentally conscious engineers building a cleaner future 🌐🔬.

Professional Profiles📖

Scopus 

ORCID 

🎓 Education 

Gulam Husain Patel holds a diverse academic portfolio focused on sustainability and energy systems 📚. He is currently a Doctoral Researcher (D.Sc.) in Energy Systems at Lappeenranta-Lahti University of Technology (LUT), Finland (2022–Present), with research centered on sustainable hydrogen production and Power-to-X technologies ⚙️🌿. He earned an M.Sc. in Sustainable Science and Solutions from LUT (2021–2022), where he deepened his understanding of environmental engineering practices and systems thinking. Prior to that, he completed an M.Sc. in Power Plant Engineering at Peter the Great St. Petersburg Polytechnic University, Russia (2020–2021), gaining in-depth technical expertise in large-scale energy systems 🏭. His academic journey began at Mumbai University, India, where he obtained a Bachelor’s in Mechanical Engineering (2012–2014), building the core engineering competencies that underpin his sustainability work. His educational background showcases a solid blend of theoretical knowledge and global perspective 🌍🎓.

💼 Experience 

Gulam has gained dynamic work experience across academia, research, and industry 👷‍♂️🔬. He currently serves as a Junior Researcher at LUT University (2022–Present), contributing to advanced research on life cycle assessment and sustainable hydrogen production for Power-to-X systems 🔄💧. Prior to this, he worked as a Junior Research Assistant at LUT (Jan–Oct 2022), focusing on natural gas-based hydrogen LCA and GHG emission mitigation strategies 🌫️➡️🌱. He also served as a Marketing Assistant at LUMA-keskus Saimaa (2021–2022), where he promoted science education and delivered experimental teaching sessions to inspire young learners 🔍👨‍🏫. Earlier, he interned with Hindustan Coca-Cola Beverages (2016–2017), monitoring manufacturing processes and supporting production line maintenance 🏭🛠️. Across these roles, Gulam has demonstrated an aptitude for combining technical skills with communication and education, showcasing versatility and purpose-driven engagement in every project he undertakes 📈🔍.

🏅 Awards and Honors

Gulam Husain Patel’s academic and professional journey has been complemented by several enriching certifications and prestigious programs 🏅📜. He participated in the MonGOS project by NAWA, a distinguished initiative focused on sustainability and environmental research 🌍. He also completed the Summer School in Oil and Gas and the Winter School in Wastewater Treatment at Peter the Great St. Petersburg Polytechnic University, reflecting his commitment to expanding domain knowledge and technical exposure 💧⚡. While early in his research career, his peer-reviewed publication in Green Chemistry (2024) signifies a strong entrance into scholarly recognition 📰🧪. Gulam’s current pursuit of a Doctorate in Energy Systems at LUT University, underpinned by funded research projects, positions him well for future academic and industry accolades 🏆. His proactive engagement with cutting-edge environmental challenges and sustainable technologies makes him a rising talent in the clean energy sector 🚀🌱.

🔬 Research Focus 

Gulam’s research is rooted in sustainable energy systems, with a focus on the Life Cycle Assessment (LCA) of hydrogen production pathways 🧪⚙️. He is particularly interested in the Power-to-X approach, which involves converting renewable electricity into synthetic fuels like hydrogen for decarbonizing hard-to-abate sectors 🔄⚡. His current doctoral project at LUT University assesses the environmental performance of hydrogen technologies, aiming to identify the most climate-friendly production methods 🌍🌿. Gulam’s work contributes to the EU’s and Finland’s goals for carbon neutrality by 2035 by targeting reductions in greenhouse gas emissions through data-driven analysis 📉🌫️. He combines modeling tools such as GaBi and Ansys with policy-oriented insight, bridging the gap between research and sustainable implementation 🧩💼. His vision is to accelerate the adoption of clean energy solutions through robust environmental evaluation, international collaboration, and technological innovation 🌎🔬.

🧰 Research Skills 

Gulam Husain Patel possesses a blend of technical, analytical, and communication skills vital to environmental engineering and energy research 💻🔧. His proficiency in software like Microsoft Office, Ansys, GaBi, and Cloud services enables him to handle simulation, LCA, and data analysis tasks with precision 📊🧩. He has experience using GaBi for in-depth environmental impact modeling and Ansys for thermodynamic simulations — key tools for his work in sustainable hydrogen production and energy systems ⚙️🌱. With full professional proficiency in English, native fluency in Hindi and Urdu, and elementary Finnish, he can effectively collaborate across diverse teams and cultural settings 🌐🗣️. Beyond technical competencies, Gulam brings strong skills in public engagement, gained through his teaching and marketing assistant roles. He is adaptive, innovative, and committed to addressing global sustainability challenges through an interdisciplinary lens 🚀🌍.

Publications Top Notes📚

“Environmental performance of biomethanation based on life cycle assessment”
Journal: Energy, April 2025
DOI: 10.1016/j.energy.2025.135244
Authors: Gulam Husain Patel, Mika Horttanainen, Marika Kokko, Hulya Civelek Yörüklü, Jouni Havukainen

“Climate change performance of hydrogen production based on life cycle assessment”
Journal: Green Chemistry, 2024
DOI: 10.1039/D3GC02410E
Authors: Gulam Husain Patel, Jouni Havukainen, Mika Horttanainen, Risto Soukka, Mari Tuomaala

 

✅ Conclusion

Gulam Husain Patel exhibits strong potential and a clear trajectory toward becoming an influential academic researcher in environmental and energy systems. His current achievements, particularly in hydrogen research and LCA, are commendable. While he is an emerging researcher with impressive academic breadth, his profile would benefit from expanded research output and leadership roles.

 Verdict: Highly Promising Candidate — suitable for consideration, particularly for early-career researcher recognitions or “Emerging Researcher” categories within the Best Academic Researcher Award framework.