通过优化UiO-66金属有机框架界面实现水中全氟和多氟烷基物质的痕量吸附去除

Trace Adsorptive Removal of PFAS from Water by Optimizing the UiO-66 MOF Interface.

作者信息

Ilić Nebojša, Tan Kui, Mayr Felix, Hou Shujin, Aumeier Benedikt M, Morales Eder Moisés Cedeño, Hübner Uwe, Cookman Jennifer, Schneemann Andreas, Gagliardi Alessio, Drewes Jörg E, Fischer Roland A, Mukherjee Soumya

机构信息

Chair of Urban Water Systems Engineering, Technical University of Munich, Am Coulombwall 3, 85748, Garching, Germany.

Department of Chemistry, University of North Texas, 1155 Union Cir, Denton, TX, 76203, USA.

出版信息

Adv Mater. 2025 Feb;37(6):e2413120. doi: 10.1002/adma.202413120. Epub 2024 Nov 21.

DOI:10.1002/adma.202413120

PMID:39573850

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11817902/

Abstract

The confluence of pervasiveness, bioaccumulation, and toxicity in freshwater contaminants presents an environmental threat second to none. Exemplifying this trifecta, per- and polyfluoroalkyl substances (PFAS) present an alarming hazard among the emerging contaminants. State-of-the-art PFAS adsorbents used in drinking water treatment, namely, activated carbons and ion-exchange resins, are handicapped by low adsorption capacity, competitive adsorption, and/or slow kinetics. To overcome these shortcomings, metal-organic frameworks (MOFs) with tailored pore size, surface, and pore chemistry are promising alternatives. Thanks to the compositional modularity of MOFs and polymer-MOF composites, herein we report on a series of water-stable zirconium carboxylate MOFs and their low-cost polymer-grafted composites as C-PFAS adsorbents with benchmark kinetics and "parts per billion" removal efficiencies. Bespoke insights into the structure-function relationships of PFAS adsorbents are obtained by leveraging interfacial design principles on solid sorbents, creating a synergy between the extrinsic particle surfaces and intrinsic molecular building blocks.

摘要

淡水污染物中普遍存在、生物累积和毒性的共同作用构成了首屈一指的环境威胁。全氟和多氟烷基物质（PFAS）就是这三者共同作用的典型例子，在新兴污染物中呈现出惊人的危害。用于饮用水处理的最先进的PFAS吸附剂，即活性炭和离子交换树脂，存在吸附容量低、竞争性吸附和/或动力学缓慢的问题。为克服这些缺点，具有定制孔径、表面和孔化学性质的金属有机框架（MOF）是很有前景的替代方案。得益于MOF和聚合物-MOF复合材料的组成模块化，在此我们报道了一系列水稳定的羧酸盐锆MOF及其低成本的聚合物接枝复合材料，作为具有基准动力学和“十亿分之一”去除效率的C-PFAS吸附剂。通过利用固体吸附剂的界面设计原理，深入了解PFAS吸附剂的结构-功能关系，在外在颗粒表面和内在分子结构单元之间产生协同作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1d36/11817902/0687ceb38757/ADMA-37-2413120-g006.jpg

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通过优化UiO-66金属有机框架界面实现水中全氟和多氟烷基物质的痕量吸附去除

Trace Adsorptive Removal of PFAS from Water by Optimizing the UiO-66 MOF Interface.

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