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Green Noncarbon-Based Nanomaterials for Environmental Remediationionalized nanomaterials in water treatment offers the potential to remove chemical contaminants such as dyes, heavy metals, and pharmaceuticals. This chapter discusses noncarbon-based materials such as metal-based nanoparticles, geosorbents (bentonite, zeolite, sepiolite, etc.), chitosan, and magnet

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Green Iron Nanoparticles for Nanoremediationtaminants can. Some of them can persist for long periods of time in an ecosystem and can also enter food chains, causing extensive damage. It is necessary to develop ecofriendly solutions to deal with these pollutants in an efficient way, aiming to achieve balance and more-sustainable development. T

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Green Silver Nanoparticles for Nanoremediation have diverse uses, is a function of modern nanoscience and nanoengineering. Thanks to their distinct features, silver nanoparticles (Ag NPs) have drawn a lot of curiosity. The green fabrication of Ag NPs employing extracts from therapeutic plants is the main topic of this chapter. Low toxicity, ene

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Main Interaction of Green Nanomaterials and Microorganisms on Nanoremediation Protocolsobal concern. The pollutants and contaminants released from industries, agricultural practices, and other source have become most hazardous to humans and are putting humans at high health risks. Nanotechnology, an emerging field, produces nanoscale materials that are effective in bioremediation. The

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Conventional Strategies of Bioremediation Versus Green Nanoremediationlutants, and toxins from contaminated soil, water, air, and other environmental media. Bioremediation is an attractive option because it reduces the toxic load on effluents by using biological organisms.Conventional strategies of bioremediation come with their own limitations, such as high cost, low

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