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引用次数: 0
摘要
快速、准确地测定持久性有机污染物(POPs)对解决公共安全和环境安全相关问题起着至关重要的作用。本文报道了一种独特的基于薄膜的固相微萃取(简称TF-SPME)方法,通过将TF装入自制的采样装置并配备在无人机上,可同时装入多达6片TF,用于现场分析持久性有机污染物。同时装载 6 块 TFs 在效率、准确性、成本效益和采样的可比性方面具有显著优势。多氯联苯和多芳烃的检测限低至 0.03 纳克/升,远远低于美国环境保护局规定的饮用水监管阈值。标准偏差介于 2.7% 和 9.9% 之间,显示了其在持久性有机污染物分析方面的卓越精度。随后,通过将 TF-SPME 简单地安装在无人机上,实现了对真实水样的远程控制采样和现场分析。结果表明,广州市中心河水中多氯联苯的浓度为 0.12 ng L-1 至 1.01 ng L-1,多环芳烃的浓度为 0.53 ng L-1 至 19.93 ng L-1。这项研究证明了利用新型采样装置对持久性有机污染物进行实际监测的可能性,并有望扩展对潜在化学毒性和生物毒性样本进行远程分析的工具箱。
Remote sampling of persistent organic pollutants by a home-made thin film device
Fast and accurate determination of persistent organic pollutants (POPs) plays a crucial role in addressing concerns related to public security and environmental safety. Herein, a unique thin film based solid phase microextraction (denoted as TF-SPME) method was reported and used for on-site analysis of POPs via loading the TFs into a homemade sampling device and equipped on a drone, which can load up to 6 pieces of TFs at the same time. The parallel 6 pieces of TFs offered significant advantages in terms of efficiency, accuracy, cost-effectiveness and comparability of sampling. The detection limit for polychlorinated biphenyls and polyaromatic hydrocarbons was as low as 0.03 ng L-1, far below the regulatory thresholds for drinking water prescribed by the United States Environmental Protection Agency. The standard deviations were ranged between 2.7% and 9.9%, showcasing its remarkable precision on POPs analysis. Then, by facilely equipping TF-SPME on a drone, remotely controlled sampling and on-site analysis in real water samples was realized. The concentrations were determined to be from 0.12 ng L-1 to 1.01 ng L-1 for PCBs and 0.53 ng L-1 to 19.93 ng L-1 for PAHs in the river water of Guangzhou downtown area. This study demonstrates the possibility of practical monitoring POPs with constructing novel sampling device and hopefully expands the toolbox for remote analysis of potential chemotoxicity and biotoxicity samples.
期刊介绍:
ACS Applied Materials & Interfaces is a leading interdisciplinary journal that brings together chemists, engineers, physicists, and biologists to explore the development and utilization of newly-discovered materials and interfacial processes for specific applications. Our journal has experienced remarkable growth since its establishment in 2009, both in terms of the number of articles published and the impact of the research showcased. We are proud to foster a truly global community, with the majority of published articles originating from outside the United States, reflecting the rapid growth of applied research worldwide.
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