G. Melnikova, D. V. Sapsaliou, T. Tolstaya, I. V. Korolkov, S. Chizhik, N. Zhumanazar, A. S. Baranova, M. V. Zdorovets
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Techniques for modifying TeMs based on PET with a monolayer coating based on PFDA by the Langmuir‒Blodgett method, and with two-layer coatings, formed by soaking PET TeMs/PFDA in xylenol orange solutions have been developed. The microstructure and local mechanical properties of the sensor surface were studied by atomic force microscopy, and the wettability and values of the specific surface energy of PET TeMs before and after modification were evaluated using the ''sessile'' drop method. Based on the measurement of electrochemical characteristics, it was found that PET TeMs/PFDA have a higher response of electrochemical characteristics compared to PET TeMs and PET TeMs/PFDA/XO. 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Based on the measurement of electrochemical characteristics, it was found that PET TeMs/PFDA have a higher response of electrochemical characteristics compared to PET TeMs and PET TeMs/PFDA/XO. 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引用次数: 0
摘要
由于人类活动,环境受到重金属的污染。最重要的任务是找到控制水中重金属含量的方法。利用 Langmuir-Blodgett 技术,可以比较容易地通过纳米级功能材料层对跟踪蚀刻膜(TeMs)进行改性,从而有可能有针对性地改变膜表面的结构和选择性,并获得具有所需特性的新材料。这项工作的目的是利用带有全氟癸酸(PFDA)纳米层的聚对苯二甲酸乙二醇酯(PET)TeMs,开发用于分析水中铅离子的柔性传感器。研究人员开发了利用 Langmuir-Blodgett 法对基于 PET 的 TeM 进行改性的技术,包括基于 PFDA 的单层涂层,以及将 PET TeMs/PFDA 浸泡在二甲酚橙溶液中形成的双层涂层。利用原子力显微镜研究了传感器表面的微观结构和局部机械性能,并采用 "无梗 "液滴法评估了改性前后 PET TeMs 的润湿性和比表面能值。根据电化学特性的测量结果发现,与 PET TeMs 和 PET TeMs/PFDA/XO 相比,PET TeMs/PFDA 具有更高的电化学特性响应。在 5 次测量中,pH = 12 的水溶液中铅离子的检测限为 0.652 µg/l。
Nanostructured Coatings Based on Langmuir–Blodgett Films of Perfluorodecanoic Acid for Flexible Sensors for the Analysis of Lead Ions in Water
As a result of anthropogenic activities, the environment is polluted by heavy metals. The most important task is to find methods to control their content in water. Track-etched membranes (TeMs) can be relatively easily modified by nanometer layers of functional materials with using the Langmuir‒Blodgett technique, which makes it possible to specifically change the structural, selective properties of the membrane surface and obtain new materials with desired properties. The aim of the work was to develop flexible sensors for the analysis of lead ions in water based on poly(ethylene terephthalate) (PET) TeMs with perfluorodecanoic acid (PFDA) nanolayers. Techniques for modifying TeMs based on PET with a monolayer coating based on PFDA by the Langmuir‒Blodgett method, and with two-layer coatings, formed by soaking PET TeMs/PFDA in xylenol orange solutions have been developed. The microstructure and local mechanical properties of the sensor surface were studied by atomic force microscopy, and the wettability and values of the specific surface energy of PET TeMs before and after modification were evaluated using the ''sessile'' drop method. Based on the measurement of electrochemical characteristics, it was found that PET TeMs/PFDA have a higher response of electrochemical characteristics compared to PET TeMs and PET TeMs/PFDA/XO. The limit of detection for lead ions in aqueous solutions at pH = 12 was of 0.652 µg/l within 5 measurements.