Understanding the mechanism underlying the green synthesis of metallic nanoparticles using plant extract(s) with special reference to Silver, Gold, Copper and Zinc oxide nanoparticles
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Abstract
Background
Green synthesis techniques provide a sustainable and environmentally responsible approach to creating nanoparticles. These methods utilize natural and renewable resources as catalysts while minimizing the use of harmful chemicals. Nanoparticles, characterized by their dimensions of 1–100 nm, possess unique properties, making them highly sought after in fields like medicine, electronics, and environmental remediation.
Main body
This review examines the process of creating and utilizing metal nanoparticles, namely copper, zinc oxide, gold, and silver. It explores a range of methods for nanoparticle synthesis, including physical, chemical, and biological approaches, with particular attention to green synthesis methods that utilize natural resources to minimize environmental impact. Traditional synthesis methods often involve hazardous chemicals, prompting the adoption of eco-friendly alternatives. The review explores diverse techniques, such as top-down and bottom-up approaches, discussing their advantages and limitations. Specific synthesis methods and applications of nanoparticles, particularly those derived from plant extracts, are explored. These nanoparticles find utility in biomedical research, drug delivery, catalysis, sensing, and environmental clean-up.
Conclusion
The review underscores the significance of green synthesis methods in nanoparticle production, highlighting their versatility and the need for ongoing research to harness their full potential while addressing associated challenges.
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