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全可氧化前驱体(TOP)分析——全氟和多氟烷基物质场地调查与修复的最佳实践、能力及局限性

Total Oxidizable Precursor (TOP) Assay-Best Practices, Capabilities and Limitations for PFAS Site Investigation and Remediation.

作者信息

Ateia Mohamed, Chiang Dora, Cashman Michaela, Acheson Carolyn

机构信息

United States Environmental Protection Agency, Center for Environmental Solutions & Emergency Response, Cincinnati, Ohio 45268, United States; Department of Chemical and Biomolecular Engineering, Rice University, Houston, Texas 77005, United States.

WSP USA, Atlanta, Georgia 30326, United States.

出版信息

Environ Sci Technol Lett. 2023 Mar 9;10(4):292-301. doi: 10.1021/acs.estlett.3c00061.

DOI:10.1021/acs.estlett.3c00061
PMID:37313434
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10259459/
Abstract

The comprehensive characterization of per- and polyfluoroalkyl substances (PFASs) is necessary for the effective assessment and management of risk at contaminated sites. While current analytical methods are capable of quantitatively measuring a number of specific PFASs, they do not provide a complete picture of the thousands of PFASs that are utilized in commercial products and potentially released into the environment. These unmeasured PFASs include many PFAS precursors, which may be converted into related PFAS chemicals through oxidation. The total oxidizable precursor (TOP) assay offers a means of bridging this gap by oxidizing unknown PFAS precursors and intermediates and converting them into stable PFASs with established analytical standards. The application of the TOP assay to samples from PFAS-contaminated sites has generated several new insights, but it has also presented various technical challenges for laboratories. Despite the increased number of literature studies that include the TOP assay, there is a critical and growing gap in the application of this method beyond researchers in academia. This article outlines the benefits and challenges of using the TOP assay with aqueous samples for site assessments and suggests ways to address some of its limitations.

摘要

对全氟和多氟烷基物质(PFASs)进行全面表征,对于有效评估和管理受污染场地的风险至关重要。虽然目前的分析方法能够定量测量多种特定的PFASs,但它们无法全面呈现商业产品中使用的数千种PFASs以及可能释放到环境中的情况。这些未测量的PFASs包括许多PFAS前体,它们可能通过氧化转化为相关的PFAS化学品。总可氧化前体(TOP)分析提供了一种弥合这一差距的方法,即通过氧化未知的PFAS前体和中间体,并将它们转化为具有既定分析标准的稳定PFASs。将TOP分析应用于PFAS污染场地的样品产生了一些新见解,但也给实验室带来了各种技术挑战。尽管包含TOP分析的文献研究数量有所增加,但除学术界研究人员外,该方法在应用方面存在严重且不断扩大的差距。本文概述了在场地评估中使用TOP分析对水样进行分析的益处和挑战,并提出了一些解决其局限性的方法。

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