An environmentally responsible and long-lasting method of reducing environmental contamination is fungus bioremediation. This chapter uses a natural synthesis strategy to investigate the synergistic coupling of new nanomaterial utilization with fungus-based remediation solutions. The main objective is to reduce the ecological impact of conventional remediation techniques while addressing environmental damage. Because of their diverse enzymatic machinery, fungi are essential for the breakdown of both organic and inorganic contaminants. This chapter concludes the significance of the remediation potential of fungi by using nanomaterials, utilizing their natural capabilities. Because of their special physicochemical characteristics, nanoparticles provide a viable way to increase the effectiveness and selectivity of bioremediation procedures. Environmentally friendly processes and sustainable resources are utilized in the eco-friendly synthesis of nanomaterials, which is in line with the ideas of ecologically responsible behavior. This method encourages the development of scalable and affordable solutions while reducing the usage of dangerous chemicals. By combining environmentally acceptable nanomaterial synthesis with fungal-mediated processes, this chapter aims to further the subject of bioremediation. The study’s findings have great potential for creating sustainable and environmentally friendly solutions to a range of environmental problems, promoting a cleaner and healthier world.

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Exploring the Potential of Fungus-Mediated Synthesis of Nanoparticles and Its Application in Remediation of Contaminated Environment

  • Shoaib Mukhtar,
  • Imran Uddin

摘要

An environmentally responsible and long-lasting method of reducing environmental contamination is fungus bioremediation. This chapter uses a natural synthesis strategy to investigate the synergistic coupling of new nanomaterial utilization with fungus-based remediation solutions. The main objective is to reduce the ecological impact of conventional remediation techniques while addressing environmental damage. Because of their diverse enzymatic machinery, fungi are essential for the breakdown of both organic and inorganic contaminants. This chapter concludes the significance of the remediation potential of fungi by using nanomaterials, utilizing their natural capabilities. Because of their special physicochemical characteristics, nanoparticles provide a viable way to increase the effectiveness and selectivity of bioremediation procedures. Environmentally friendly processes and sustainable resources are utilized in the eco-friendly synthesis of nanomaterials, which is in line with the ideas of ecologically responsible behavior. This method encourages the development of scalable and affordable solutions while reducing the usage of dangerous chemicals. By combining environmentally acceptable nanomaterial synthesis with fungal-mediated processes, this chapter aims to further the subject of bioremediation. The study’s findings have great potential for creating sustainable and environmentally friendly solutions to a range of environmental problems, promoting a cleaner and healthier world.