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My core areas of expertise include: Electrochemical energy storage systems, including supercapacitors and lithium-ion batteries Electrochemical biosensors for detection of environmental toxins, food quality indicators, and agricultural contaminants I focus on developing bio-based materials from renewable resources such as algae, diatoms, and agricultural waste, applying structural and morphological control to synthesize carbonaceous and hybrid inorganic materials with optimized electrochemical performance. Through conductive polymer integration and tailored polymer formulations, I design materials that are device-compatible and performance-enhanced for target applications. My biosensor platforms are particularly well-suited for real-time monitoring in agri-food systems—including pesticide residues, microbial contamination, heavy metals, and nutrient levels—supporting sustainable farming, wetland management, and food safety strategies aligned with PRIMA 2025 objectives. With extensive leadership in both national and international R&D projects, I offer solid scientific and technological contributions to PRIMA 2025 proposals in the following areas: Nature-based water and soil solutions for climate resilience Biosensor-enabled smart agroecological practices Monitoring systems for sustainable farming in wetlands Food value chain innovations through electrochemical detection and waste valorization Circular bioeconomy approaches using agri-waste-derived functional materials