AI Article Synopsis
- - The paper reviews the increasing scientific focus on the toxicity and degradation of Perfluorooctanoic acid (PFOA) and perfluorooctane sulfonate (PFOS), detailing their harmful effects on various biological systems.
- - Different degradation techniques, such as photochemical, photocatalytic, and electrochemical methods, are analyzed, with a particular emphasis on biodegradation using specific microorganisms, plants, and enzymes.
- - The paper highlights a lack of research on PFOA and PFOS biodegradation, while emphasizing its potential benefits, and introduces novel materials and methods that improve degradation efficiency, encouraging further exploration in this field.
Article Abstract
Given environmental persistence, potential for bioaccumulation, and toxicity of Perfluorooctanoic acid (PFOA) and perfluorooctane sulfonate (PFOS), the scientific community has increasingly focused on researching their toxicology and degradation methods. This paper presents a survey of recent research advances in the toxicological effects and degradation methods of PFOA and PFOS. Their adverse effects on the liver, nervous system, male reproductive system, genetics, and development are detailed. Additionally, the degradation techniques of PFOA and PFOS, including photochemical, photocatalytic, and electrochemical methods, are analyzed and compared, highlighted the potential of these technologies for environmental remediation. The biotransformation pathways and mechanisms of PFOA and PFOS involving microorganisms, plants, and enzymes are also presented. As the primary green degradation pathway for PFOA and PFOS, Biodegradation uses specific microorganisms, plants or enzymes to remove PFOA and PFOS from the environment through redox reactions, enzyme catalysis and other pathways. Currently, there has been a paucity of research conducted on the biodegradation of PFOA and PFOS. However, this degradation technology is promising owing to its specificity, cost-effectiveness, and ease of implementation. Furthermore, novel materials/methods for PFOA and PFOS degradation are presented in this paper. These novel materials/methods effectively improve the degradation efficiency of PFOA and PFOS and provide new ideas and tools for the degradation of PFOA and PFOS. This information can assist researchers in identifying flaws and gaps in the field, which can facilitate the formulation of innovative research ideas.
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