Abstract

Environmental pollution resulting from the release of various pollutants into ecosystems is a growing concern worldwide. Traditional bioremediation methods have demonstrated effectiveness in detoxifying contaminated environments, yet their efficiency is often limited by the complex nature of pollutants and the dynamics of environmental matrices. In recent years, the convergence of nanotechnology and bioremediation has emerged as a promising approach to address these limitations. Researchers and scientists in various fields of environmental sciences, particularly in bioremediation, have paid close attention to nanomaterials because they possess distinctive physical and chemical features. The improvement in living standards brought about by science and technology also has an impact either directly or indirectly on the rise in toxic waste. Therefore, removing poisons from the environment with current technology does not adequately and efficiently clean it up. The use of nanomaterials for bioremediation would not only have a less negative impact on microorganisms but will increase the microbial activity of the specific waste and toxic material, lowering the overall time consumption and the overall cost. The objective of nanotechnology functional side is to improve material performance andreduce the quantity of materials needed to complete the cleanup process. Nano-bio remediation uses ex-situ or in-situ nanomaterials to treat contaminated materials. Therefore, using nanomaterials to remove environmental pollution could be an efficient, effective method that is sustainable. This review paper presents an overview of the recent advancements and future prospects of nano bioremediation, highlighting the potential of nanomaterials in enhancing the efficiency and specificity of bioremediation processes.

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