Abstract

The management and mitigation of hazardous chemicals pose significant challenges to environmental and human health. This comprehensive review critically examines the efficacy of biological and chemical methods for the detoxification of hazardous chemicals. Hazardous chemicals, ranging from organic pollutants to heavy metals, often contaminate soil, water, and air, leading to adverse ecological and health impacts. Traditional chemical-based approaches have limitations, such as secondary pollutant generation and high operational costs. In contrast, biological methods harness the metabolic activities of microorganisms, plants, and enzymes to transform or degrade hazardous compounds. This review evaluates the performance of biological systems, including bioremediation, phytoremediation, and enzyme-based approaches, in detoxifying various classes of hazardous chemicals. Additionally, chemical methods, such as advanced oxidation processes, redox reactions, and adsorption, are scrutinized for their efficiency in chemical degradation and transformation. The comparative analysis considers factors like effectiveness, cost, environmental impact, and applicability to different chemical classes. Understanding the strengths and weaknesses of these detoxification approaches is essential for informed decision-making in environmental remediation and industrial processes. This review offers valuable insights into the selection of appropriate detoxification methods, based on the nature of the hazardous chemicals and the desired environmental and economic outcomes.

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