Yongcun Li | Environmental Studies | Editorial Board Member

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Assoc. Prof. Dr. Yongcun Li | Environmental Studies | Editorial Board Member

Researcher | Hunan University of Science and Technology | China 

Dr. Yongcun Li, an accomplished researcher at the Hunan University of Science and Technology, is a leading expert in low-carbon energy systems, heat-pump engineering, and industrial environmental purification technologies. He holds advanced degrees in mechanical and energy engineering, specializing in refrigeration, air-conditioning systems, and thermal energy processes, which form the foundation of his innovative contributions to sustainable industrial technologies. His professional experience spans the development of high-efficiency heat-pump and energy-supply equipment, oil-mist and dust-purification solutions, and integrated industrial waste-heat recovery systems, through which he has led and supported major research initiatives advancing near-zero-emission industrial operations. Dr. Li’s research focus includes multi-objective optimization of heat-pump processes, coupled purification of oil mist, dust, and VOCs, and comprehensive carbon-reduction strategies, resulting in 11 peer-reviewed publications, 86 citations, and an h-index of 4, underscoring the growing impact of his work. His contributions are further strengthened by collaborations across disciplines, active participation in scholarly communication, and involvement in professional memberships, certifications, and peer-review activities. Dr. Li’s commitment to advancing clean-energy technologies and industrial decarbonization positions him as a distinguished candidate whose work significantly supports global sustainability goals.

Profile : Scopus

Featured Publications

Li, Y. (n.d.). Multi-objective optimization of heat pump drying process using NSGA-II and response surface methodology: A case study of sludge

Dr. Li’s innovative research in low-carbon heat-pump systems, industrial purification technologies, and waste-heat recovery advances sustainable engineering solutions that reduce emissions and improve energy efficiency. His work directly supports cleaner industrial practices and contributes to global efforts toward carbon neutrality and environmental resilience.

Rui Lei | Environmental Studies | Editorial Board Member

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Assoc. Prof. Dr. Rui Lei | Environmental Studies | Editorial Board Member

Associate Professor | Hubei University of Education | China

Dr. Rui Lei is a materials science researcher whose work advances the development of nanostructured materials for energy storage, photocatalysis, and electrochemical applications. With a strong academic background in ferrous metallurgy and chemistry, he has built substantial expertise in designing, synthesizing, and optimizing functional nanomaterials that address critical challenges in energy efficiency and environmental remediation. His research portfolio, supported by 393 citations across 356 documents, 30 publications, and an h-index of 11, reflects a growing impact in the scientific community. Dr. Lei has contributed significant innovations in defect-engineered carbon nanotube networks, metal oxide nanostructures, and hybrid composite systems that enhance catalytic activity, charge transport, and electrochemical stability. His work includes the development of self-supported CNT networks for binder-free supercapacitors, MnO₂ nanowire-modified graphene–carbon nanotube systems, and heterojunction-based Fe₂O₃, SnO₂, and WO₃ nanostructures tailored for high-efficiency photocatalytic degradation and solar-driven catalytic reactions. He has also advanced electrochemical detection platforms through the engineering of graphitic edge plane-rich CNT networks for sensitive ascorbic acid and uric acid analysis. Dr. Lei’s methodological contributions span hydrothermal synthesis, electrodeposition, nanointerface design, and crystal morphology tuning, enabling improvements in reaction kinetics, light absorption, charge carrier dynamics, and long-term material stability. His research activities within collaborative laboratory environments have strengthened multidisciplinary efforts toward sustainable material solutions and next-generation energy devices. His scholarly output in respected international journals demonstrates both scientific rigor and technological relevance. Recognized with multiple academic excellence scholarships, Dr. Lei has shown consistent dedication to advancing materials science and nanotechnology. His expanding body of work highlights his ability to bridge fundamental chemistry with applied engineering, positioning him as a promising and influential researcher shaping innovations in energy materials and functional nanostructures.

Profile : Scopus

Featured Publications

Lei, R., Ni, H., Chen, R., Gu, H., & Zhang, B. (2025). A highly sensitive and selective detection of ascorbic acid and uric acid based on nitrogen-doped graphitic carbon nanotube networks in situ grown on 316L stainless steel. Journal of Crystal Growth.

Lei, R., Zhang, H., Ni, H., Chen, R., Gu, H., & Dong, S. (2024). Controllable synthesis of vertically aligned WO₃ nanoplate arrays on stainless steel for improved visible-light photoelectrocatalytic activity. New Journal of Chemistry.

Lei, R., Zhang, H., Ni, H., Chen, R., Gu, H., & Dong, S. (2023). High rate-performance supercapacitors based on nitrogen-doped graphitized carbon nanotube networks in situ grown on 316L stainless steel as binder-free electrodes. New Journal of Chemistry.

Dr. Rui Lei’s work advances the development of high-performance nanomaterials that enhance clean energy technologies, environmental remediation, and sustainable electrochemical systems. His innovations in photocatalysis, sensor materials, and energy storage electrodes support scientific progress while enabling scalable solutions for industry and global sustainability.

Devlina Pramanik | Environmental Studies | Editorial Board Member

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Assist. Prof. Dr. Devlina Pramanik | Environmental Studies | Editorial Board Member

Assistant Professor | Amity University Noida | India

Dr. Devlina (Das) Pramanik is an environmental biotechnologist whose research advances the development and application of functional biopolymers for pollution remediation, environmental sustainability, and emerging contaminant management. Her work focuses on creating innovative polysaccharide-based material including chitosan derivatives, plant-gum composites, xanthan-based systems, and ion-imprinted biopolymers with tailored physicochemical properties for the removal of heavy metals, dyes, pesticides, pharmaceutical residues, microplastics, and rare earth elements from complex aqueous environments. She has made significant contributions to biosorption science through her doctoral research on macrofungus-based biosorbents and has expanded these foundations to engineer cost-effective, regenerable, and scalable materials that integrate equilibrium, kinetic, and thermodynamic principles. As a Marie Skłodowska-Curie Postdoctoral Fellow, she developed advanced biopolymer-assisted coagulation and cavitation approaches that enhanced the selective capture, recovery, and upcycling of microplastics, establishing structure–function relationships that guide the design of next-generation biodegradable coagulants. Her research further spans hydrogel technologies, functional nanofibers, molecular-imprinted polymers, and hybrid biocoagulant systems optimized through statistical modelling, including Box–Behnken and response surface methodologies. Dr. Pramanik’s publications in leading international journals highlight her contributions to understanding microplastic toxicity in aquatic species, chitosan-based environmental materials, lithium recovery from spent batteries, glitter-induced bioaccumulation, and sustainable pollutant degradation strategies. She has led and collaborated on projects involving desalination, organic flocculants, biopolymer-assisted dye removal, and polymer coating materials for oil absorption. Her research leadership includes supervising postgraduate and undergraduate work on chitosan encapsulation, biosorbent grafting, polymer–clay composites, and behavioural toxicity assessments in model aquatic organisms. Through interdisciplinary collaborations spanning biotechnology, material science, and environmental chemistry, Dr. Pramanik continues to develop cutting-edge biopolymer technologies that address global challenges related to water pollution, microplastic contamination, and sustainable resource recovery, contributing extensively to the advancement of eco-innovative environmental biotechnology.

Profiles : Scopus | ORCID | Google Scholar 

Featured Publication

Pramanik, D., et al. (2022). Selective recovery of lithium from spent coin cell cathode leachates using ion-imprinted blended chitosan microfibers: Pilot scale studies provide insights on scalability. Journal of Hazardous Materials.

Ovais, M., Mukherjee, S., Pramanik, A., Das, D., Mukherjee, A., Raza, A., & Chen, C. (2020). Designing stimuli-responsive upconversion nanoparticles that exploit the tumor microenvironment. Advanced Materials.

Das, N., Madhavan, J., Selvi, A., & Das, D. (2019). An overview of cephalosporin antibiotics as emerging contaminants: A serious environmental concern. 3 Biotech, 9.

Das, D. (2019). Organic flocculation as an alternative for wastewater treatment. In Biochemical and Environmental Bioprocessing: Challenges and Developments (Chap. 10).

Sahithya, K., Das, D., & Das, N. (2017). Adsorption coupled photocatalytic degradation of dichlorvos using LaNiMnO₆ perovskite nanoparticles supported on polypropylene filter cloth and carboxymethyl cellulose microspheres. Environmental Progress & Sustainable Energy, 36(4).

Dr. Devlina (Das) Pramanik shows strong expertise in environmental biotechnology, especially biopolymer-based remediation and microplastic detoxification, supported by quality publications and interdisciplinary methods. She can further improve by increasing industry partnerships and scaling her technologies. Her future research holds promise for advanced biopolymer systems, innovative microplastic solutions, and impactful sustainability technologies.

Estelle Crochelet | Biodiversity and conservation | Best Researcher Award

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Dr. Estelle Crochelet | Biodiversity and conservation | Best Researcher Award 

Scientific Director | University of Reunion Island | Reunion 

Dr. Estelle Crochelet’s research focuses on marine ecology, biodiversity conservation, and sustainable management of tropical and island ecosystems in the Western Indian Ocean. As a Marine Ecologist at the Biodiversity Research Agency of Réunion Island (ARBRE), she integrates field ecology, molecular analysis, and spatial modeling to study coral reef systems, mesophotic ecosystems, and species connectivity. Her pioneering application of environmental DNA (eDNA) techniques has transformed biodiversity monitoring by enabling the detection of rare and cryptic species such as sharks and rays, advancing ecosystem-based management and conservation planning. Through leadership roles in major initiatives including the IRRAE, MAEO, and CONCILIER programs, Dr. Crochelet has contributed to integrated coral reef management, linking ecological research with territorial planning and policy implementation. Her interdisciplinary work, combining marine biology, remote sensing, and ecological modeling, has generated valuable insights into habitat connectivity, reef resilience, and marine spatial planning. Collaborating with organizations such as IUCN, IRD, and the French Biodiversity Office, she has played a vital role in shaping regional conservation strategies and advancing scientific understanding of marine ecosystems. Widely published in prestigious journals such as Nature, Science, Environmental DNA, and Deep Sea Research, Dr. Crochelet’s work has global relevance, addressing the challenges of biodiversity loss and climate impacts on marine environments. Alongside her scientific achievements, she mentors emerging researchers, leads citizen science initiatives, and promotes public awareness of ocean conservation. A certified professional diver, rebreather user, and drone pilot, she combines technical field expertise with innovative research approaches, making significant contributions to sustainable marine governance and biodiversity preservation in the Southwestern Indian Ocean.

Profiles : Scopus | ORCID

Featured Publications

Crochelet, E., Desbonnes, O., Inçaby, L., Nazurally, N., Stevens, G., van Beuningen, D., Gadenne, J., Morand, G., Bertrand, G., & Nikolic, N. (2025). Biodiversity and conservation of elasmobranchs in the Mascarene Islands: Policy implementation and protection strategies. Ocean & Coastal Management, 262, 107921.

Crochelet, E., Barrier, N., Andrello, M., Marsac, F., Spadone, A., & Lett, C. (2020). Connectivity between seamounts and coastal ecosystems in the Southwestern Indian Ocean. Deep-Sea Research Part II: Topical Studies in Oceanography, 180, 104774.

Bourjon, P., Crochelet, E., & Fricke, R. (2019). First record of the large caerulean damselfish, Pomacentrus caeruleopunctatus (Actinopterygii: Perciformes: Pomacentridae), from Réunion Island, southwest Indian Ocean. Acta Ichthyologica et Piscatoria, 49(3), 293–297.

Queiroz, N., Humphries, N. E., Couto, A., Vedor, M., da Costa, I., Sequeira, A. M. M., Mucientes, G., Santos, A. M., Abascal, F. J., Abercrombie, D. L., et al. (2019). Global spatial risk assessment of sharks under the footprint of fisheries. Nature, 572(7770), 461–466.

Soria, M., Heithaus, M. R., Blaison, A., Crochelet, E., Forget, F., & Chabanet, P. (2019). Residency and spatial distribution of bull sharks Carcharhinus leucas in and around Réunion Island marine protected area. Marine Ecology Progress Series, 626, 85–97.

Dr. Estelle Crochelet’s research advances global marine conservation through innovative studies on elasmobranch ecology, connectivity, and policy implementation across the Mascarene and Western Indian Ocean. Her work bridges ecological modeling, spatial management, and biodiversity protection—informing sustainable fisheries, strengthening marine protected areas, and shaping evidence-based conservation strategies that safeguard ocean ecosystems and coastal livelihoods worldwide.

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.

Anna Vatsanidou | Environmental Assessment | Best Academic Researcher Award

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Assist. Prof. Dr. Anna Vatsanidou | Environmental Assessment | Best Academic Researcher Award

Assistant Professor at National and Kapodistrian University of Athens | Greece

Dr. Anna Vatsanidou is an Assistant Professor at the Department of Agricultural Development, Agri-Food and Natural Resources Management, National and Kapodistrian University of Athens (NKUA). She is an accomplished agriculturist with extensive expertise in precision and sustainable agriculture, environmental impact assessment, and life cycle analysis of agri-food systems. Her academic path and professional journey reflect a strong commitment to advancing agri-food sustainability and contributing to innovative solutions for global agricultural challenges.

Professional Profiles

ORCID | Google Scholar

Education

Dr. Vatsanidou holds a Master’s degree in Integrated Agricultural Production Systems and a Doctorate in Environmental Assessment from the Department of Agriculture, Crop Production and Rural Environment at the University of Thessaly. Her doctoral research laid the foundation for her specialized expertise in evaluating environmental impacts within agricultural and food production systems. During this period, she gained a deep understanding of sustainable agricultural practices, system optimization, and the application of environmental models to assess agricultural inputs and outputs. Her multidisciplinary training combines agronomy, environmental sciences, and technological innovation, equipping her with the tools to address complex challenges in modern agriculture.

Experience

Dr. Vatsanidou has developed a distinguished career spanning academia, research institutes, and both public and private organizations. She began as an agronomist in public agencies, gaining valuable experience in agricultural systems and their operational challenges. Expanding into the private sector, she focused on applied agricultural practices and project implementation. At the Benaki Phytopathological Institute, she served as project manager, coordinating multidisciplinary teams and advancing research outcomes into practical strategies. Her academic pathway includes serving as a PhD Researcher at CERTH’s Institute of Bio-Economics and Agrotechnology, specializing in environmental impact assessment. She has also collaborated as an external fellow with the Agricultural University of Athens and the University of Thessaly. Currently, she is an Assistant Professor at NKUA, teaching, mentoring, and leading projects in precision agriculture and sustainability.

Research Focus

Dr. Vatsanidou’s research is centered on the evaluation and development of precision agricultural techniques, environmental footprint analysis, and sustainable production systems. A core component of her work is the application of life cycle assessment (LCA) to evaluate environmental impacts across the agri-food chain, from primary production to processing. Her studies address key challenges in climate-smart agriculture, sustainable resource management, and environmental protection, with an emphasis on balancing productivity with ecological sustainability. She has made significant contributions to precision farming technologies for crop protection, environmental assessment of emission reduction technologies, and the integration of innovative tools such as imaging recognition and digital algorithms in agriculture. Her research supports the global transition towards agriculture 4.0 and 5.0 by incorporating digitalization, automation, and sustainable practices into farming systems.

Publication Top Notes

Title: Freshness Prediction for Apples & Lettuces
Authors: Chrysanthos Maraveas; George Kalitsios; Marianna I. Kotzabasaki; Dimitrios V. Giannopoulos; Kosmas Dimitropoulos; Anna Vatsanidou
Summary: Presents a mobile app that combines imaging recognition with advanced algorithms to predict fruit and vegetable freshness in real time. The tool helps reduce food waste and ensures better quality monitoring along the supply chain.

Title: Life Cycle Assessment of Insect vs. Conventional Feed
Authors: Anna Vatsanidou; Styliani Konstantinidi; Eleftherios Bonos; Ioannis Skoufos
Summary: Compares the environmental impact of conventional and insect-based protein feeds using life cycle assessment (LCA). Findings highlight insect-based proteins as a sustainable alternative for animal production.

Title: Biopolymer Nanopesticides for Degradation
Authors: Chrysanthos Maraveas; Giasemi K. Angeli; Anna Vatsanidou; Marianna I. Kotzabasaki
Summary: Reviews the design of biopolymer-based nanopesticides aimed at improving pesticide degradation. Emphasizes eco-friendly nanotechnology solutions to enhance crop protection while reducing environmental risks.

Title: Cybersecurity in Agriculture 4.0 & 5.0
Authors: Chrysanthos Maraveas; Muttukrishnan Rajarajan; Konstantinos G. Arvanitis; Anna Vatsanidou
Summary: Analyzes cybersecurity challenges in digital agriculture, covering precision farming and smart technologies. Proposes risk mitigation measures to protect agricultural data, devices, and infrastructures.

Title: Emission Reduction in Livestock Systems
Authors: Vasileios Anestis; Anna Vatsanidou; Thomas Bartzanas
Summary: Examines emission reduction strategies in livestock systems. Evaluates their effectiveness, environmental benefits, and potential adoption, supporting sustainable practices in animal production.

Conclusion

Dr. Anna Vatsanidou is an innovative and impactful researcher whose work bridges the fields of agriculture, environmental science, and digital technology. Her commitment to sustainability, leadership in major international projects, and contributions to both academic scholarship and practical applications mark her as an outstanding candidate for recognition. Through her teaching, research, and collaborations, she continues to advance sustainable agricultural development while shaping the next generation of agricultural scientists. Her work exemplifies excellence in addressing the pressing challenges of food security, environmental stewardship, and technological innovation in the agri-food sector.