IdeeGreenNano: Eco‑Friendly Nanotech for Clean Water

Overview. GreenNano is a sustainable nanotechnology solution designed to purify polluted water using eco-friendly, plant-based materials. This project introduces an innovative method for synthesizing zinc oxide (ZnO) nanoparticles through green chemistry—specifically using natural extracts from apples (Malus domestica) and mandarins (Citrus reticulata)—without relying on harmful reagents or high-temperature industrial processes. These nanoparticles serve as photocatalysts that harness sunlight to break down toxic organic compounds in water, such as synthetic dyes and industrial pollutants. Problem Addressed: Globally, over 2 billion people lack access to clean water. Conventional water treatment methods can be expensive, energy-intensive, and produce secondary pollution. Synthetic chemicals, like dyes from textile factories or pharmaceutical waste, often remain untreated and enter natural ecosystems, harming both people and wildlife. There is an urgent need for a low-cost, scalable, and environmentally safe solution for decentralized water purification—especially in rural or disaster-prone areas. Innovation: 1.GreenNano offers a unique approach by combining: 2.Green synthesis of nanomaterials using biodegradable fruit extracts as natural reducing and capping agents; 3.Photocatalysis, where ZnO nanoparticles use UV or sunlight to initiate advanced oxidation reactions that degrade pollutants; 4.AI-driven optimization (future stage): integrating machine learning to analyze reaction kinetics and suggest ideal fruit-to-Zn ratios, temperatures, or pH levels for maximum yield and performance. Results so far: In initial lab tests, ZnO nanoparticles synthesized with apple extract achieved a 91% degradation rate of bromothymol blue (a model dye) within 78.5 minutes under sunlight. The catalyst retained over 96% of its mass after 3 reuse cycles, proving both efficiency and durability. Compared to traditional methods, our approach reduces toxicity, cost, and energy usage. Scalability & Impact: GreenNano can be adapted for low-tech settings—using locally sourced fruits and small-scale synthesis kits—enabling communities to purify water using household waste and sunlight. In the long term, these nanomaterials could be integrated into solar-powered filters, rural treatment stations, or portable disaster-response systems. This project not only promotes access to clean water but also demonstrates how STEM, AI, and sustainability can come together to solve real-world problems. Future Development: 1.Implement real-time AI monitoring to model degradation rates and suggest improvements. 2.Expand to other fruit/plant-based extracts to compare cost-efficiency. 3.Perform XRD and TEM analysis for nanoparticle characterization. 4.Design a prototype water purification cartridge using ZnO-coated membranes. Conclusion: GreenNano represents a fusion of local resources, global challenges, and scientific innovation. It’s a student-led, scalable idea that can help redefine the future of clean water—one fruit at a time.

As a student researcher with hands-on experience in green chemistry, nanotechnology, and scientific experimentation, my expertise lies in developing low-cost, eco-friendly solutions for real-world environmental problems. Through my work on synthesizing zinc oxide nanoparticles using fruit extracts for water purification, I have gained practical skills in experimental design, data analysis, and scientific communication. I am also actively exploring how AI can optimize chemical synthesis and improve lab efficiency. I can support other organizations by contributing to sustainability-oriented STEM projects, especially those focused on water treatment, green materials, or rural innovation. I can help design educational workshops for students, collaborate on youth-driven research initiatives, or assist in building low-tech lab protocols for schools or NGOs. My mission is to make science more accessible, localized, and impactful—and I’m ready to share both my research insights and enthusiasm for environmental innovation with others.