Prof. Manal Fawzy | Green Technology | Best Review Article Award
Prof., Environmental Biotechnology , Environmental Sciences Dept, Faculty Of Science, Alexandria University, Egypt
Prof. Manal Fawzy Ahmed, an Environmental Phyto-technologist, is a founding member of the Environmental Sciences Department at Alexandria University. A distinguished researcher and academic, she leads the Green Technology Group and serves as Chair of the Egyptian National Man & Biosphere Commission to UNESCO. In recognition of her expertise, UNESCO appointed her to the International Advisory Committee for the Man and Biosphere Program (2023–2026). Prof. Fawzy has received numerous accolades, including the UNESCO Young Scientist Award (1991) and Sultan Qaboos Prize for Environmental Preservation (1997). Her pioneering work spans biodiversity conservation, restoration of degraded ecosystems, and nanotechnology-based water treatment. A prolific scholar, she has published 73 Scopus-indexed articles, a book, and nine book chapters while mentoring students and engaging with global scientific communities.
Profile
Education
Prof. Manal Fawzy Ahmed obtained her PhD in Plant Flora and Taxonomy from Alexandria University in collaboration with the Biosystematics Research Centre, Ottawa, Canada, in 1991. Her academic journey laid a robust foundation in plant sciences and environmental studies. During her doctoral research, she developed a comprehensive understanding of biodiversity and plant taxonomy, contributing significantly to these fields. Over the years, Prof. Fawzy expanded her expertise, embracing interdisciplinary approaches to address pressing environmental challenges. Through continuous professional development, including participation in 40 workshops and 42 national and international conferences, she honed her skills in environmental impact assessment, biodiversity monitoring, and phytoremediation techniques. This rich educational and professional background underpins her innovative research and leadership in environmental sciences.
Research Focus
Prof. Manal Fawzy’s research emphasizes using indigenous plant species to remediate polluted environments and synthesize nanomaterials for wastewater treatment. She explores green biotechnology, focusing on the phytofabrication of nanocomposites with environmental and biomedical applications. Her groundbreaking work includes developing biochar, graphene, and metal-based nanomaterials for pollution control, as well as addressing environmental challenges like heavy metal contamination and antibiotic pollution. Prof. Fawzy also leads projects on biodiversity conservation and ecosystem restoration, applying sustainable and nature-based solutions. A passionate advocate of sustainable development, her research integrates advanced technologies with ecological principles to tackle global environmental issues effectively.
Publications
🌱 Sustainable synthesis of a novel hydrothermally carbonized AuNPs-hydrochar nanocomposite
🌍 From Waste to Worth: Upcycling Plastic into High-Value Carbon-Based Nanomaterials
🧪 Sustainable fabrication of dimorphic plant-derived ZnO nanoparticles
💧 Retention and recycling of granules in continuous flow-through systems
🌿 Antioxidant, anticancer, and photocatalytic potentials of gold nanoparticles
📘 Artificial Intelligence and Modeling for Water Sustainability
📚 Artificial Intelligence for Sustainable Water Management and Treatment
🌀 Efficient Removal of Phosphate by Phyto-Graphene Composite
🌊 Green synthesis of zinc oxide nanoparticles using Sea Lavender
🧬 Synergetic effect of green synthesized reduced graphene oxide
🌟 Phytofabrication of bimetallic silver-copper/biochar nanocomposite
🔬 Green synthesis of bimetallic Ag/ZnO@Biochar nanocomposite
⚛️ Novel Biogenic Synthesis of Ag@Biochar Nanocomposite
☢️ Facile Synthesis of Gold Nanoparticles for Anticancer and Environmental Applications
🧪 Optimization of mild steel corrosion inhibition by plant extracts
💡 Catalytic and Medical Potential of Phyto-Functionalized Nanocomposites
🌱 Green Synthesis of Nano-Zero-Valent Iron Using Plant Extracts
🦠 COVID-19 transmission, persistence, and nanotherapy
🌿 Comparative study of Phragmites australis extracts for gold nanoparticle synthesis
🌍 Techno-economic and environmental approaches of Cd²⁺ adsorption by olive leaves