Antonina Wozna Urbanczak | Environmental Science | Innovative Research Award

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Dr. Antonina Wozna Urbanczak | Environmental Science | Innovative Research Award 

Universität Graz | Institut of Systematic Theology | Austria

Dr. Dr. Antonina Maria Wozna Urbanczak is a theologian and ethicist specializing in feminist theology, gender studies, ecological ethics, and social justice. She works as a postdoctoral researcher and university lecturer in theological women’s and gender studies, with extensive international academic experience across Europe. Holding doctorates in theology and philosophy, she integrates ethical theory, feminist hermeneutics, and interdisciplinary approaches to religion, culture, and sustainability. Her work includes teaching, supervision, academic leadership, and participation in international research networks. She is an active contributor to global scholarly discourse through conferences, editorial boards, and a substantial body of monographs, edited volumes, and peer-reviewed publications.

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Liran Shmuel Raz Steinkrycer | Environmental Science | Best Innovation Award

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Mr. Liran Shmuel Raz Steinkrycer | Environmental Science | Best Innovation Award

Raz-Orr Engineering & Consulting Ltd | Israel

Liran Shmuel Yair Raz Steinkrycer is a senior engineering executive and recognized international expert in sustainability, green energy, electromagnetic fields (RF and ELF), radio communication, acoustics, and environmental safety. He serves as Director of Engineering, R&D, and Measurements at Razorr Lifesaving Radiation Solutions Ltd., leading advanced research, education, and large-scale measurement programs. A trusted advisor to government bodies, courts, and major industries, he is also a national media expert on radiation and environmental issues. He combines deep technical expertise with strong leadership, teaching excellence, and a passion for innovation, safety, and sustainable technology solutions.

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Dr. Ahmed Sobhy Abdelrahim Abdallah darwish | Green Chemistry | Best Academic Researcher Award | 2736

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Dr. Ahmed Sobhy Abdelrahim Abdallah darwish | Green Chemistry | Best Academic Researcher Award

Zagazig university, Egyptian International Pharmaceutical Industries Company, EIPICO | Egypt

Ahmed Sobhy Abdelrahim Abdallah Darwish is a highly accomplished analytical chemist with strong academic credentials and extensive pharmaceutical industry experience. He holds advanced qualifications in analytical chemistry up to the doctoral level and demonstrates a sustained commitment to specialization, quality, and scientific rigor. Professionally, he has progressed through key quality control, stability, and methodology leadership roles, culminating in his current position as Deputy Manager of Labs Development at EIPICO, where he leads multidisciplinary teams and oversees method development, comparative in vitro studies, and stress stability research. He possesses strong regulatory expertise and the ability to engage technically with major international pharmacopoeias and global regulatory authorities. His research portfolio is centered on eco-friendly, stability-indicating HPLC methods, with numerous completed publications emphasizing green analytical chemistry principles. With a solid citation record and recognized contributions to sustainable pharmaceutical analysis, his profile reflects both industrial impact and academic excellence.

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Genetu Tesfa | Environmental Science | Research Excellence Award

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Mr. Genetu Tesfa | Environmental Science | Research Excellence Award

Addis Ababa Science and Technology University | Ethiopia

Genetu Tesfa is an Ethiopian postgraduate researcher in Environmental Engineering at Addis Ababa Science and Technology University, specializing in water and wastewater treatment with a strong focus on the removal of antibiotics and pharmaceutical contaminants using advanced oxidation processes such as iron slag–based electro-Fenton systems. His research addresses critical challenges related to hospital wastewater pollution, antimicrobial resistance, and sustainable environmental remediation. He has published in SCI and Scopus-indexed international journals and contributed to nature-based treatment methods using vetiver grass, as well as waste valorization through composting and alternative fertilizers. His work emphasizes low-cost, environmentally sustainable solutions tailored to developing-country contexts, supported by active interdisciplinary collaborations in environmental science and engineering.


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Rawdah Whba | Energy Sustainability | Research Excellence Award

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Dr. Rawdah Whba | Energy Sustainability | Research Excellence Award

Dr. Rawdah Whba | Taiz University & Inonu University | Yemen

Dr. Rawdah Abduh Ghaleb Whba is an Assistant Professor of Chemistry at the Faculty of Applied Sciences, Taiz University, Yemen, and currently a Postdoctoral Researcher at İnönü University, Malatya, Türkiye. She specializes in energy storage and conversion, with a strong research focus on polymer electrolytes, electrode materials, and advanced electrochemical systems including solid-state lithium-ion batteries, sodium-ion batteries, and supercapacitors. Dr. Whba completed two bachelor’s degrees in Chemistry from Taiz University with first-class honours, earning two Presidential Awards of Yemen for academic excellence (2006, 2008). She received an English and computer diploma from NODS (2007) and joined Taiz University as a lecturer in 2009. She obtained her MSc (2017) and PhD (2022) in Chemistry from Universiti Kebangsaan Malaysia (UKM) under prestigious scholarships from the Yemeni Government and the Islamic Development Bank. She later served as a research assistant at UKM before receiving the Türkiye Scholarships Postdoctoral Award (2023–2024), completing a fellowship at Istanbul Medeniyet University. Currently, Dr. Whba works on Na-ion full-cell development, specializing in high-performance cathode materials, pre-sodiation strategies, interfacial engineering, operando analysis, and DFT-supported materials optimization. Her broader expertise includes polymer synthesis, grafted polymers, thin-film membrane fabrication, organic/inorganic materials synthesis, electrochemical characterization, kinetic studies, and materials evaluation for next-generation rechargeable batteries. Dr. Whba has authored numerous Q1 and Q2 Web of Science journals, including publications in Journal of Power Sources, Electrochimica Acta, Ionics, ACS Applied Materials & Interfaces, Langmuir, Advanced Sustainable Systems, Energy Technology, and International Journal of Biological Macromolecules. She has also published impactful review articles and collaborative works involving operando XAS, DFT studies, and biomass-derived electrode materials. She is an active scientific reviewer, contributing to Springer, Elsevier, ACS, Ionics, Carbon Letters, and multiple high-impact journals, reviewing more than 30 manuscripts, book chapters, and conference submissions. Dr. Whba has also provided academic service at Taiz University as Secretariat of the Department and Examination Committee Member and has represented academic staff in the University Syndicate since 2014. A dedicated educator, she has taught a wide range of undergraduate chemistry courses—General, Inorganic, Organic, Analytical, Physical, Biochemistry, and Pharmaceutical Analysis—at Taiz University and other institutions in Yemen. Dr. Whba is a member of several professional bodies including the American Chemical Society (ACS), the International Society of Electrochemistry (ISE), the Polymer Ionic Group (Malaysia), and the Taiz University Staff Syndicate. Her research continues to make significant contributions in polymer chemistry, electrochemistry, and sustainable energy materials, with ongoing work advancing the performance, stability, and scalability of sodium- and lithium-ion energy storage technologies.

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Featured Publications

Dogan, E., Maiga, A., Whba, R., Harfouche, M., Ozturk, Z. R., Farhan, A., Altin, E., Duygulu, Ö., Ipek, S., Kartal, R., et al. (2026). Influence of iron doping on α-NaMnO₂ lattice symmetry: Insight from operando X-ray absorption, ex-situ structural analysis, and electrochemical performance using chestnut shell-derived hard carbon. Journal of Power Sources. https://doi.org/10.1016/j.jpowsour.2025.238602

Ateş, M. N., Zengin, F., Whba, R., Tunaboylu, B., Aydemir, U., Peighambardoust, N. S., Karslıoğlu, N. G., Malkoç, H. C., Demiryürek, R., Güleryüz, Ö., et al. (2025). Mechanistic insights into cathode-driven capacity degradation of NMC111/graphite pouch cells under long-term cycling. Electrochimica Acta. https://doi.org/10.1016/j.electacta.2025.147611

Whba, R., Altın, S., Serin, S., Whba, F., Nakir, M. Y., & Sahinbay, S. (2025). Synergistic behavior of epoxidized natural rubber grafted di(ethylene glycol) methyl ether methacrylate-based solid polymer electrolytes: Experimental and density functional theory (DFT) study. Journal of Industrial and Engineering Chemistry. https://doi.org/10.1016/j.jiec.2025.11.038

Whba, R., Sahinbay, S., Whba, F., Nakir, M. Y., & Altin, S. (2025). Unlocking the potential of epoxidized natural rubber (ENR)-based polymer electrolytes: Key strategies, bibliometric insights, and future directions. Langmuir. https://doi.org/10.1021/acs.langmuir.5c00631

Dogan, E., Whba, R., Altin, E., Moeez, I., Chung, K. Y., Stoyanova, R., Koleva, V., Aktas, A., Altin, S., & Sahinbay, S. (2025). Optimized performance of Na₀.₆₇Mn₀.₅Fe₀.₅O₂@TiO₂ and presodiated hard carbon (Pre-SHC) full-cells using direct contact method. Journal of Power Sources. https://doi.org/10.1016/j.jpowsour.2025.236327

Whba, R., Su’ait, M. S., Whba, F., & Ahmad, A. (2024). Research progress on polyacrylonitrile-based polymer electrolytes for electrochemical devices: Insight into electrochemical performance. Journal of Power Sources. https://doi.org/10.1016/j.jpowsour.2024.234539

Xinping Duan | Green Chemistry | Research Excellence Award

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Prof. Xinping Duan | Green Chemistry | Research Excellence Award

Prof. Xinping Duan | Xiamen University | China

Prof. Xinping Duan of Xiamen University, China, is an internationally recognized researcher in catalysis, materials chemistry, and sustainable chemical transformations. With a distinguished academic career spanning nearly two decades, he has established himself as a leading figure in the fields of heterogeneous catalysis, CO₂ conversion, selective hydrogenation, photocatalysis, and advanced nanomaterials. His research contributions have significantly advanced the understanding of catalytic mechanisms, metal–support interactions, and rational catalyst design for energy-efficient and environmentally friendly chemical processes. Prof. Duan’s scientific impact is reflected in his outstanding publication metrics: over 72 papers, an H-index of 33, and more than 3,318 citations. His work consistently appears in top-tier journals, including Science, Nature Communications, Science Advances, ACS Catalysis, Chemical Engineering Journal, Journal of Catalysis, and Chemical Science. Several of his landmark papers—such as those on copper–silica nanocatalysts, selective CO₂ hydrogenation, and novel metal oxide interfaces—have received exceptional citation counts and have influenced both academic research and industrial catalyst development. A hallmark of Prof. Duan’s research is his ability to integrate advanced nanostructures, metal phosphides, metal carbides, and polyoxometalates to achieve high catalytic selectivity and stability. His studies on hydrogenolysis, hydrogenation, and biomass-derived oxygenate conversion have contributed to the development of greener pathways for producing fuels, fine chemicals, and value-added intermediates. He has also explored cutting-edge topics such as oxygen vacancy engineering, interfacial electron localization, spillover effects, and ambient-pressure catalytic processes. Through his rigorous research approach and sustained scientific productivity, Prof. Xinping Duan has earned a strong reputation as a catalyst innovation leader in China and abroad. His work continues to shape modern heterogeneous catalysis, clean energy conversion, and sustainable chemical engineering, positioning him as a prominent contributor to global scientific advancement.

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Featured Publications

Lin, H., Liang, X., Wen, Z., Jiao, W., Wang, R., Lian, Y., & Duan, X. (2025). The superiority of W⁶⁺ overturns the CO₂ hydrogenation selectivity of iridium. Chemical Communications. https://doi.org/10.1039/D5CC02796A

Cheng, T., Liu, Y., Miao, F., Duan, X., & Liu, Y., & Jiao, W. (2025, July). Catalytic ozonation degradation of sulfamethoxazole by high gravity coupled monolithic catalyst Ce–Co/CH: Efficacy, mechanism, pathways and toxicity. Chemical Engineering Journal. https://doi.org/10.1016/j.cej.2025.163553

Duan, X., Zhao, Y., Chou, H.-L., Zuo, J., Wang, R., Jiao, W., Fang, H., Zheng, Y., Lin, H., Ye, L., et al. (2025, March 7). Reversible spillover wakens reactivity of dormant modular hydrochlorination catalysts. ACS Catalysis. https://doi.org/10.1021/acscatal.4c06661

Duan, X., Zuo, P., Li, N., Lu, J., Zhang, J., Wen, Z., Fang, H., Jiao, W., Wang, R., & Lin, H. (2024, October 22). Collective redox-shuttling properties of nanoalloys boost water electrolysis of nitrides [Preprint]. https://doi.org/10.21203/rs.3.rs-5236379/v1

Ji, X., Zhang, J., Li, N., Qiu, L., Zhang, G., Duan, X., & Wang, R. (2024, May 13). Accelerated “electron converter” characteristics of NiCo-LDH for a CdS-carbide photocatalytic system with a dual heterointerface. ACS Sustainable Chemistry & Engineering. https://doi.org/10.1021/acssuschemeng.4c00778

Ji, X., Zhang, J., Zhang, G., Li, N., Wang, R., Lin, H., & Duan, X. (2024, April). Dual interfacing with metallic cobalt boosts the electron shuttle of CdS-carbide nanoassemblies. Journal of Colloid and Interface Science. https://doi.org/10.1016/j.jcis.2024.01.142

Amin Arzhangi | Environmental Science | Research Excellence Award

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Mr. Amin Arzhangi | Environmental Science | Research Excellence Award

Mr. Amin Arzhangi | University of Bojnord | Iran

Amin Arzhangi is a dedicated Master’s student in Water Engineering and Hydraulic Structures at the University of Bojnord, recognized for academic excellence with a top-class ranking and strong research productivity. His work spans interdisciplinary domains of hydrology, ecohydrology, environmental hydraulics, sedimentology, river engineering, and water quality assessment. He has developed a robust research profile through active involvement in advanced modeling, machine learning applications in environmental systems, and hydro-geomorphic analyses. His research contributions focus on critical issues such as hypoxia prediction in rivers and reservoirs, water quality index modeling, biodegradability assessment, sediment pollution, and river system hydraulics. He has authored numerous peer-reviewed papers in reputable international journals—including Nature Communications Sustainability, Science, and Ecosystem Health and Sustainability—with several manuscripts under review. His publications reflect methodological depth, spanning machine learning models, hydrological process modeling, reaeration estimation, and spatial analysis of riverine and coastal systems. His work has accumulated meaningful citations, demonstrating its contribution to the scientific community. In parallel to his academic research, he has presented at well-regarded international conferences in Turkey, Portugal, and Iran, addressing river morphology, organic carbon dynamics, and land-use impacts on water quality. He also contributes professionally as a reviewer for established journals such as Science of the Total Environment, Journal of Hydrology, Results in Engineering, and others, and serves on an editorial board. His applied skills include machine learning for environmental prediction, hydrodynamic and hydraulic modeling (HEC-RAS, QUAL2K, Hydrus), GIS and remote sensing, and programming in Python and R. He is actively engaged in multiple ongoing projects involving sediment source tracing, coastal ecosystem analysis, turbulence modeling, water quality forecasting, and remote sensing-based hydrological assessments. Through strong academic rigor, interdisciplinary collaborations, and impactful research output, he demonstrates a clear trajectory toward becoming an emerging researcher in water resources engineering and environmental hydro systems.

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Featured Publications

Partani, S., Arzhangi, A., Danandeh Mehr, A., Ezzati, F., & Saber, A. (2025). Integrated hydraulic and reaeration analysis for sustainable water quality management in river systems. SSRN. https://doi.org/10.2139/ssrn.5365496

Arzhangi, A., & Partani, S. (2025, November). A multi-scale framework for BOD5 prediction from water quality to hydro-geomorphic interpolation. iScience. https://doi.org/10.1016/j.isci.2025.114177

Arzhangi, A., Partani, S., Danandeh Mehr, A., Ezzati, F., & Saber, A. (2025, September 12). Instant water quality index (WQI) prediction via reaeration process and hydraulic parameters in the river system (Version 1) [Preprint]. Research Square. https://doi.org/10.21203/rs.3.rs-7481412/v1

Partani, S., & Arzhangi, A. (2025, August 17). Developing a reliable predictive model for the biodegradability index in industrial complex effluent. Scientific Reports, 15(1), 30108. https://doi.org/10.1038/s41598-025-15866-0

Arzhangi, A., & Partani, S. (2025, August 12). Development of a biodegradability index for urban rivers using detergent concentration: A case study from Tehran, Iran. American Journal of Environmental Science and Engineering, 458, Article 142521. https://doi.org/10.11648/j.ajese.20250903.17

Prof. Dr. Zhifei Li | Environmental Science | Best Researcher Award | 2605

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Prof. Dr. Zhifei Li | Environmental Science | Best Researcher Award

Prof. Dr. Zhifei Li | Pearl River Fisheries Research Institute, Chinese Academy of Fishery Sciences, Guangzhou | China

Zhifei Li is a distinguished researcher known for advancing aquaculture science, environmental engineering, and sustainable fisheries. His work spans freshwater pond healthy aquaculture, industrial recirculating aquaculture systems, ecological treatment of aquaculture tailwater, and large-water-area ecological fisheries. He has taken on significant scientific and advisory responsibilities within research institutions, engineering technology centers, and regional environmental governance bodies. His contributions are recognized through leadership roles in aquaculture pollution remediation, rural science and technology service, and expert consultation for large-scale aquaculture improvement initiatives. Zhifei Li has led numerous national and provincial research programs, including foundational research projects, key R&D initiatives, and regional technological innovation schemes. He has also collaborated on multiple multidisciplinary projects involving biofilm regulation, quorum sensing mechanisms, engineered bacteria, and low-temperature wastewater treatment systems for aquaculture. His research emphasizes practical and scalable solutions for improving water quality, enhancing aquaculture system efficiency, and promoting ecological fisheries development. Scientifically, his contributions are well-documented. He has authored 120 research documents, accumulating 1,756 citations from 1,362 citing documents, and holds an h-index of 23, reflecting strong academic influence. His publication record includes articles in recognized international journals, as well as contributions to several academic books. His innovation output features multiple authorized invention patents, software copyrights, and ongoing patented technologies with domestic and international relevance. Zhifei Li is also active in consultancy and industry-linked projects, providing technical solutions to aquaculture enterprises and environmental management programs. His collaborations extend to engineered microbial systems for wastewater treatment and biofilm regulation. Professionally, he serves in important roles within committees related to aquaculture environment and wastewater treatment and contributes to the development of future researchers as a supervisor in advanced academic programs.

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Featured Publications

Li, J., Ma, J., Li, Z., Xie, J., Zhang, Y., Yu, M., Xia, Y., Gong, W., Zhang, K., Wang, G., et al. (2025). C4-HSL drives rapid biofilm formation in low-temperature aquaculture effluent: Strengthening structural stability of biofilm and improving nitrogen removal efficiency. Environmental Research. https://doi.org/10.1016/j.envres.2025.122408

Li, J., Ma, J., Li, Z., Xie, J., Zhang, Y., Yu, M., Xia, Y., Gong, W., Zhang, K., Wang, G., et al. (2025). C4-HSL drives rapid biofilm formation in low-temperature aquaculture effluent: Strengthening structural stability of biofilm and improving nitrogen removal efficiency. SSRN. https://doi.org/10.2139/ssrn.5237275

Zhang, W., Ji, M., Wang, B., Xie, J., Wang, G., Gong, W., Li, H., Xia, Y., Zhang, K., Li, Z., et al. (2025). Comparative analysis of muscle metabolomics and gut microbiome provides new insights into the high fat intolerance mechanism of juvenile grass carp (Ctenopharyngodon idella). Aquaculture Reports. https://doi.org/10.1016/j.aqrep.2025.102864

 Zhang, K., Luo, Y.-M., Xie, J., Gong, W.-B., Li, Z.-F., Xia, Y., Xie, W.-P., Tian, J.-J., Li, H.-Y., Wang, G.-J., et al. (2025). Effect of complex carbon sources on the vertical distribution and exchange flux of nitrogen nutrient at the sediment–water interface. SSRN. https://doi.org/10.2139/ssrn.5098069

Tian, J., Wang, B., Ji, M., Gong, W., Li, H., Xia, Y., Zhang, K., Li, Z., Xie, W., Wang, G., et al. (2025). Effects of berberine combined with Pennisetum sinese Roxb meal on growth, hepatic lipid metabolism, and intestinal health of grass carp (Ctenopharyngodon idella). Aquaculture Reports. https://doi.org/10.1016/j.aqrep.2025.102702

 Wang, Z., Xie, J., Wang, G., Li, Z., Zhang, K., He, Z., Tian, J., Xie, W., Li, H., & Xia, Y., et al. (2025). Effects of Clostridium butyricum or Chinese herbal preparation on hepatic antioxidant capacity, immune function, and gut microbiota of bullfrog tadpoles and froglets (丁酸梭菌或中草药制剂对牛蛙蝌蚪和幼蛙肝脏抗氧化能力、免疫功能及肠道菌群的影响). Chinese Journal of Animal Nutrition. https://doi.org/10.12418/CJAN2025.438

Wahad Rahman | Energy Sustainability | Best Researcher Award

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Mr. Wahad Rahman | Energy Sustainability | Best Researcher Award

Mr. Wahad Rahman | University of Engineering and Technology Peshawar | Pakistan

A highly skilled engineering professional with extensive experience in mechatronics, renewable energy systems, additive manufacturing, and Internet of Things (IoT) technologies. With a strong academic foundation including advanced research in hybrid energy harvesting systems, this expert has contributed significantly to cutting-edge developments in sustainable power solutions for sensor networks and pipeline monitoring applications. Current work in additive manufacturing and reverse engineering involves leading research and development initiatives, operating advanced 3D printing technologies (FDM, SLA), managing high-precision 3D scanning, and conducting specialized training programs. This blends practical engineering with innovation-driven problem-solving across industrial and applied research environments. Previously, research contributions in sensor and energy harvesting systems included the design and development of micro Kaplan and Crossflow turbines, IoT-based pipeline monitoring solutions, energy-efficient wireless sensor nodes, and experimental setups for testing hybrid energy harvesters. These projects demonstrate strong proficiency in mechanical design, simulation, prototyping, and system integration. With several years of experience in academia, this professional has taught undergraduate theory and laboratory courses in mechanics of materials, fluid mechanics, robotics, and engineering software tools such as MATLAB and SolidWorks. Extensive involvement in STEM capacity-building programs further highlights commitment to engineering education and technology dissemination. Research expertise spans renewable energy, hybrid and flow-based energy harvesting, control systems, self-powered systems, power management circuits, wireless sensors, and IoT technologies. Published work includes multiple journal articles in reputable international outlets focusing on piezoelectric, electromagnetic, and hybrid energy harvesters, turbine modeling, RF energy harvesting, and sensor network applications. Professional development includes specialized training in IoT, Arduino, Raspberry Pi, MATLAB, image processing, robotics, content writing, and digital marketing, demonstrating a broad multidisciplinary skillset. Overall, this profile reflects a dynamic researcher and engineer dedicated to advancing sustainable energy solutions, intelligent monitoring systems, and modern manufacturing technologies.

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Featured Publications

Rahman, W. U., & Khan, F. U. (2025). A hybrid flow energy harvester to power an IoT-based wireless sensor system for the digitization and monitoring of pipeline networks. Machines, 13(11). https://doi.org/10.3390/machines13111025

Rahman, W. U., & Khan, F. U. (2025). An integrated fluid flow and solar hybrid energy harvester for pipeline monitoring system. AIP Advances. https://doi.org/10.1063/5.0284001

Rahman, W. U., & Khan, F. U. (2025). A survey of flow-based energy harvesters for powering sustainable wireless sensor nodes. Journal of Renewable and Sustainable Energy. https://doi.org/10.1063/5.0237597

Rahman, W. U., & Khan, F. U. (2023). A hybrid flow energy harvester using combined piezoelectric and electromagnetic transductions for pipeline network monitoring. Journal of Intelligent Material Systems and Structures. https://doi.org/10.1177/1045389X221147647

Gustavo Darrigran | Environmental Science | Best Researcher Award

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Dr. Gustavo Darrigran | Environmental Science | Best Researcher Award

Dr. Gustavo Darrigran | Research Scientist of the National Scientific and Technical Research Council | Argentina

Dr. Gustavo Darrigran is a distinguished Argentine biologist and malacologist whose career has been centered on the ecology, systematics, and environmental impact of freshwater and marine mollusks. A Doctor in Natural Sciences (Zoology) from the Universidad Nacional de La Plata (UNLP), he has over four decades of academic and research experience at national and international levels. His doctoral thesis, “Aspectos Ecológicos de la Malacofauna Litoral del Río de la Plata”, laid the foundation for his lifelong research on aquatic invertebrates, particularly invasive bivalve species that have transformed South American freshwater ecosystems. Dr. Darrigran is recognized as one of Latin America’s leading experts on aquatic bioinvasions, focusing on invasive mollusks such as Limnoperna fortunei and Corbicula fluminea. His research has advanced understanding of species invasion dynamics, ecological impacts on native biodiversity, and bioindicator applications for environmental monitoring. Through collaborations with international organizations—including the International Union for Conservation of Nature (IUCN), the Zoological Society of London, and the Encyclopedia of Life—he has contributed to global conservation initiatives, notably the IUCN Red List of Threatened Species and the Libro Rojo de Moluscos Argentinos (2020–2025), which he coordinated. A prolific educator, Dr. Darrigran has held professorships at UNLP’s Faculties of Natural Sciences and Humanities, teaching zoology, ecology, and conservation biology. He has also been an invited lecturer in postgraduate programs across Argentina, Brazil, and Spain. His mentorship has fostered a generation of scientists dedicated to environmental protection and biodiversity conservation. His scientific contributions and leadership have earned him numerous honors, including the Científico Cultural Award from Prefectura Naval Argentina, the MercoPremio Award (Brazil), and recognition as an Honorary Member of the Félix de Azara Natural History Foundation. Dr. Darrigran’s career exemplifies excellence in research, education, and international cooperation toward the sustainable management of aquatic ecosystems.

Profiles: Orcid

Featured Publications 

De Lucía, M., Darrigran, G., & Gutiérrez Gregoric, D. E. (2023). Diversity of non-marine mollusks in the southernmost Paranaense forest of the world. Anais da Academia Brasileira de Ciências, 95(1), e20220212. https://doi.org/10.1590/0001-3765202320220212

Roche, A., Cetra, N., Nuñez, V., & Darrigran, G. (2023, April 25). Catálogo de las especies de Nudibranchia (Gastropoda: Heterobranchia) de la Colección de Moluscos del Museo de La Plata, Argentina. Acta Zoológica Lilloana, 67(1), e2023-04-13. https://doi.org/10.30550/j.azl/2023.67.1/2023-04-13

Darrigran, G., Agudo-Padrón, I., Baez, P., Belz, C., Cardoso, F., Collado, G. A., Correoso, M., Cuezzo, M. G., Damborenea, C., Fabres, A. A., et al. (2023, March). Species movements within biogeographic regions: Exploring the distribution of transplanted mollusc species in South America. Biological Invasions, 25(3), 1007–1023. https://doi.org/10.1007/s10530-022-02942-z

De Lucía, M., Darrigran, G., & Gutiérrez Gregoric, D. E. (2023, January). The most problematic freshwater invasive species in South America, Limnoperna fortunei (Dunker, 1857), and its status after 30 years of invasion. Aquatic Sciences, 85(1), 7. https://doi.org/10.1007/s00027-022-00907-x

Darrigran, G., Custodio, H., Legarralde, T. I., & Vilches, A. M. (2022, November 30). Colecciones biológicas y virtualidad: Un recurso para la enseñanza de la biodiversidad. Bio-grafía, 16(30), 17823. https://doi.org/10.17227/bio-grafia.vol.16.num30-17823

Miyahira, I. C., Clavijo, C., Callil, C. T., Cuezzo, M. G., Darrigran, G., Gomes, S. R., Lasso, C. A., Mansur, M. C. D., Pena, M. S., Ramírez, R., et al. (2022, September). The conservation of non-marine molluscs in South America: Where we are and how to move forward. Biodiversity and Conservation, 31(11), 2859–2882. https://doi.org/10.1007/s10531-022-02446-1