用于饮用水中过量氟化物采样的选择性、快速响应和可再生金属有机骨架。

Selective, Fast-Response, and Regenerable Metal-Organic Framework for Sampling Excess Fluoride Levels in Drinking Water.

机构信息

Laboratory of Molecular Simulation (LSMO) and ‡Electronic Workshop, Institut des Sciences et Ingénierie Chimiques (ISIC) , Ecole Polytechnique Fédérale de Lausanne (EPFL Valais) , Rue de l'Industrie 17 , 1951 Sion , Switzerland.

Institut des Sciences et Ingénierie Chimiques (ISIC) , Ecole Polytechnique Fédérale de Lausanne (EPFL) , 1015 Lausanne , Switzerland.

出版信息

J Am Chem Soc. 2019 Feb 20;141(7):3052-3058. doi: 10.1021/jacs.8b11907. Epub 2019 Feb 11.

DOI:10.1021/jacs.8b11907

PMID:30740969

Abstract

Prolonged consumption of water contaminated with fluoride ions (F) at concentrations exceeding 1.5 ppm can lead to considerable health implications, particularly in children and developing embryos. With irreversible and potentially severe forms of fluoride (F) toxicity such as skeletal fluorosis being endemic in at least 25 countries, constructing affordable, remote-access, reliable water-sampling methods for F contamination is an important goal. In this work, we present a novel lanthanide-based luminescent metal-organic framework, named SION-105, with a boron (B) receptor site whose interactions with F in aqueous solutions are simultaneously electrostatic and specific in nature because of its carefully designed structural environment. This allows the material to be easily regenerated and used over 10 cycles, setting it apart from most existing molecular and polymeric F sensors. SION-105 has been combined with a portable prototype sampling device that was designed and built in-house to measure F concentrations in natural groundwater samples taken from three different countries, with the results showing excellent agreement with ion chromatography analysis.

摘要

长期摄入浓度超过 1.5ppm 的氟离子（F）污染的水可能会对健康造成严重影响，尤其是对儿童和发育中的胚胎。至少有 25 个国家存在氟（F）毒性的不可逆转和潜在严重形式，如氟骨症，因此构建负担得起、远程访问、可靠的水采样方法来检测 F 污染是一个重要目标。在这项工作中，我们提出了一种新型的基于镧系元素的发光金属有机骨架，命名为 SION-105，它具有硼（B）受体位点，由于其精心设计的结构环境，其与水溶液中的 F 的相互作用在本质上同时具有静电和特异性。这使得该材料可以轻松再生并重复使用 10 次以上，这使其有别于大多数现有的分子和聚合物 F 传感器。SION-105 与一个便携式原型采样设备结合使用，该设备是内部设计和制造的，用于测量从三个不同国家采集的天然地下水样本中的 F 浓度，结果与离子色谱分析显示出极好的一致性。

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用于饮用水中过量氟化物采样的选择性、快速响应和可再生金属有机骨架。

Selective, Fast-Response, and Regenerable Metal-Organic Framework for Sampling Excess Fluoride Levels in Drinking Water.

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