U.S. Environmental Protection Agency (EPA), Office of Research and Development (ORD), Center for Environmental Measurement and Modeling, Athens, GA 30605, USA.
EPA, ORD, Center for Environmental Measurement and Modeling, Durham, NC 27711, USA.
Science. 2022 Feb 4;375(6580):eabg9065. doi: 10.1126/science.abg9065.
Over the past several years, the term PFAS (per- and polyfluoroalkyl substances) has grown to be emblematic of environmental contamination, garnering public, scientific, and regulatory concern. PFAS are synthesized by two processes, direct fluorination (e.g., electrochemical fluorination) and oligomerization (e.g., fluorotelomerization). More than a megatonne of PFAS is produced yearly, and thousands of PFAS wind up in end-use products. Atmospheric and aqueous fugitive releases during manufacturing, use, and disposal have resulted in the global distribution of these compounds. Volatile PFAS facilitate long-range transport, commonly followed by complex transformation schemes to recalcitrant terminal PFAS, which do not degrade under environmental conditions and thus migrate through the environment and accumulate in biota through multiple pathways. Efforts to remediate PFAS-contaminated matrices still are in their infancy, with much current research targeting drinking water.
在过去的几年中,PFAS(全氟和多氟烷基物质)一词已成为环境污染的象征,引起了公众、科学界和监管机构的关注。PFAS 是通过两种工艺合成的,直接氟化(例如电化学氟化)和齐聚(例如氟调聚)。每年生产的 PFAS 超过 100 万吨,其中数千种 PFAS 最终出现在终端用途产品中。在制造、使用和处置过程中,大气和水相的逸散释放导致这些化合物在全球范围内分布。挥发性 PFAS 促进了长距离传输,通常随后是复杂的转化方案,形成不降解的顽固终端 PFAS,它们在环境条件下不会降解,因此通过多种途径在环境中迁移并在生物群中积累。修复 PFAS 污染基质的工作仍处于起步阶段,目前的许多研究都针对饮用水。