Perfluoroalkyl functionalized-Au nanoparticle sensor: Employing rate of spectrum shifting for highly selective and sensitive detection of per- and polyfluoroalkyl substances (PFASs) in aqueous environments

IF 7.2 2区 环境科学与生态学 Q1 ENGINEERING, ENVIRONMENTAL
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Abstract

Per- and polyfluoroalkyl substances (PFASs) are emerging contaminants detected ubiquitously and have negative impacts on human health and ecosystem; thus, developing in-situ sensing technique is important to ensure safety. Herein, we report a novel colorimetric-based sensor with perfluoroalkyl receptor attached to citrate coated gold nanoparticles (Citrate-Au NPs) that can detect several PFASs including perfluorocarboxylates with different chain lengths (PFHxA, PFOA, PFNA, PFDA), perfluorooctanoic sulfonate (PFOS), and perfluorooctanoic phosphonate (PFOPA). The sensor detects PFASs utilizing fluorous interaction between PFASs and the perfluoroalkyl receptor of Citrate-Au NPs in a solution at a fixed salt concentration, inducing changes in nanoparticle dispersity and the solution color. The rate of spectrum shift was linearly dependent on PFASs concentrations. Citrate-Au NPs with size between 29 – 109 nm were synthesized by adjusting citrate/Au molar ratios, and 78 nm showed the best sensitivity to PFOA concentration (with level of detection of 4.96 µM). Citrate-Au NPs only interacted with PFASs with perfluoroalkyl length > 4 and not with non-fluorinated alkyl compound (nonanoic acid). The performance of Citrate-Au NP based sensor was strongly dependent on the chain length of the perfluoroalkyl group and the head functional group; higher sensitivity was observed with longer chain over shorter chain, and with sulfonate functional group over carboxylate and phosphonate. The sensor was tested using real water samples (i.e., tap water, filtered river water), and it was found that the sensor is capable of detecting PFASs in these conditions if calibrated with the corresponding water matrix. While further optimization is needed, this study demonstrated new capability of Citrate-Au NPs based sensor for detection of PFASs in water.

Abstract Image

全氟烷基功能化金纳米粒子传感器:利用光谱移动速率高选择性、高灵敏度地检测水环境中的全氟和多氟烷基物质 (PFAS)
全氟烷基和多氟烷基物质(PFASs)是普遍存在的新兴污染物,对人类健康和生态系统有负面影响;因此,开发原位传感技术对确保安全非常重要。在此,我们报告了一种新型的基于比色法的传感器,该传感器的柠檬酸盐涂层金纳米粒子(Citrate-Au NPs)上附有全氟烷基受体,可检测多种全氟烷烃类物质,包括不同链长的全氟羧酸盐(PFHxA、PFOA、PFNA、PFDA)、全氟辛酸磺酸盐(PFOS)和全氟辛基膦酸盐(PFOPA)。该传感器利用固定盐浓度溶液中的 PFAS 与柠檬酸-金纳米粒子的全氟烷基受体之间的荧光相互作用来检测 PFAS,从而引起纳米粒子分散性和溶液颜色的变化。光谱变化率与全氟辛烷磺酸浓度呈线性关系。通过调整柠檬酸盐/金的摩尔比,合成了尺寸在 29 - 109 nm 之间的柠檬酸盐-金纳米粒子,其中 78 nm 纳米粒子对全氟辛烷磺酸浓度的灵敏度最高(检测水平为 4.96 µM)。柠檬酸盐-金纳米粒子只与全氟烷基长度为 4 的 PFASs 发生作用,而不与非氟烷基化合物(壬酸)发生作用。基于柠檬酸盐-金纳米粒子的传感器的性能与全氟烷基的链长和头部官能团密切相关;长链比短链的灵敏度高,磺酸官能团比羧酸和膦酸官能团的灵敏度高。使用真实水样(如自来水、过滤河水)对传感器进行了测试,结果发现,如果使用相应的水基质进行校准,传感器能够在这些条件下检测出 PFAS。虽然还需要进一步优化,但本研究证明了基于柠檬酸-金氧化物的传感器在检测水中全氟辛烷磺酸方面的新能力。
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来源期刊
Water Research X
Water Research X Environmental Science-Water Science and Technology
CiteScore
12.30
自引率
1.30%
发文量
19
期刊介绍: Water Research X is a sister journal of Water Research, which follows a Gold Open Access model. It focuses on publishing concise, letter-style research papers, visionary perspectives and editorials, as well as mini-reviews on emerging topics. The Journal invites contributions from researchers worldwide on various aspects of the science and technology related to the human impact on the water cycle, water quality, and its global management.
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