Selective fluoride ion sensing in aqueous medium using ultrathin film of functionalized single-walled carbon nanotubes

Parul Taneja, V Manjuladevi, R K Gupta, K K Gupta
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Abstract

The presence of fluoride ion (F - ) in potable water above its permissible limit (1–4 ppm) poses serious health hazards. Hence, detection of fluoride in potable water is essential. The π-electron rich single-walled carbon nanotubes can interact with F- to form semi-covalent C-F bond which can act as a basis for F - sensing in aqueous medium. Here, a single layer of octadecylamine functionalized single-walled carbon nanotubes (ODA-SWCNTs) was transferred onto solid substrates by the Langmuir–Schaefer (LS) method and employed for sensing of F- in aqueous medium by recording piezo and electrochemical responses, simultaneously using an electrochemical quartz crystal microbalance. The lowest detectable concentration and range of detectable concentration of fluoride ion were found to be 0.5 ppm and 0.5–145 ppm, respectively. The analysis of the LS film of ODA-SWCNTs before and after interaction with fluoride ion by Raman spectroscopy and grazing angle x-ray diffraction measurement reveals perturbation of π-electrons of the SWCNTs due to semi-covalent binding of the fluoride with the carbon atom of the nanotubes. The sensor showed a good selectivity towards the F- in the presence of some heavy metal ions. Testing of the sensor towards F- in tap water obtained from some local region showed a good accuracy.
利用功能化单壁碳纳米管超薄薄膜在水介质中选择性传感氟离子
饮用水中的氟离子(F-)含量超过允许极限(1-4 ppm)会对健康造成严重危害。因此,检测饮用水中的氟至关重要。富含 π 电子的单壁碳纳米管能与 F- 相互作用,形成半共价的 C-F 键,这可以作为水介质中 F- 检测的基础。在此,我们采用 Langmuir-Schaefer (LS) 方法将单层十八胺功能化单壁碳纳米管(ODA-SWCNTs)转移到固体基底上,并利用电化学石英晶体微天平同时记录压电和电化学响应,从而用于水介质中 F- 的传感。结果发现,氟离子的最低可检测浓度和可检测浓度范围分别为 0.5 ppm 和 0.5-145 ppm。通过拉曼光谱和掠角 X 射线衍射测量对与氟离子相互作用前后的 ODA-SWCNT LS 薄膜进行的分析表明,由于氟与纳米管碳原子的半共价结合,SWCNT 的 π 电子发生了扰动。在一些重金属离子存在的情况下,该传感器对氟离子具有良好的选择性。在当地一些地区的自来水中对传感器进行的氟离子测试表明,该传感器具有良好的准确性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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