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https://doi.org/10.1057/9781137400079obal 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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Foreign Policy in Times of Global Changes,lutants, 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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Fungal-Based Synthesis to Generate Nanoparticles for Nanobioremediationr reducing and stabilizing nanoparticles (NPs). Fungal nanotechnology has represented exceptional technique?in this area, owing to its nontoxicity, eco-friendly nature for fungal NPs, and nanostructure synthesis by reducing enzymes using either intracellular or extracellular techniques. Further, eas

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Algae-Based Synthesis to Generate Nanomaterials for Nanoremediationcal properties. Chemical and physical strategies have been used before, but their usefulness has been constrained by the creation of hazardous byproducts, energy-intensive experimental processes, and expensive instrumentations. The eco-benign fabrication of NPs has been proposed as a potential subst

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