基于直径的测量纸传感器,用于检测水中的氯化物,使用方便

IF 4.1 Q1 CHEMISTRY, ANALYTICAL
Benjarat Tasangtong , Thanapit Pholsaptanakorn , Thanakorn Tapsawut , Nisakorn Wiwekwin , Jaruwan Mettakoonpitak , Piyaporn Na Nongkhai , Yupaporn Sameenoi
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引用次数: 0

摘要

氯化物(Cl-)是一种在自然界中广泛分布的阴离子。在评估水质以确保饮用水安全、防止基础设施损坏、减轻环境影响和确定地下水污染时,它也是一个必须考虑的重要参数。这项研究首次开发了一种基于直径的测量纸传感器,利用基于莫尔沉淀滴定的反应进行氯化物分析。直径为 3 厘米的圆形纸传感器预先涂有 AgNO3 和 CrO42-,形成 Ag2CrO4 的棕色沉淀。传感器使用层压膜密封,层压膜顶部有直径为 3 毫米的打孔入口,用于样品输送。要检测氯化物,只需将传感器浸入样品中即可。氯化物溶液流入中央样品入口并向径向扩散,与 Ag2CrO4 沉淀发生置换反应,形成 AgCl 白色沉淀,其直径与氯化物成正比,可在 3 分钟内观察到。使用的 AgNO3 浓度会影响分析结果的优劣。AgNO3 浓度越低,检测限越低,线性范围越窄,但灵敏度越高。该传感器被用于分析自来水、饮用水和工业用水中的氯化物,在 95% 的置信区间(双尾 P = 0.08)内,从所开发的传感器中得到的氯化物浓度与从标准滴定法中得到的浓度差异不大,这表明所开发的传感器能准确分析各种来源水样中的氯化物。未经培训的工作人员在泰国春武里府 SaenSuk 市的 26 个地点使用开发的传感器现场分析自来水中的氯化物。结果显示,所有样本中的氯化物含量都在 52.2-84.7 毫克/升之间,远远低于泰国省级水务局规定的可接受范围(250 毫克/升),这表明该地区使用的自来水对消费者是安全的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

User-friendly diameter-based measurement paper sensor for chloride detection in water

User-friendly diameter-based measurement paper sensor for chloride detection in water

Chloride (Cl) is an anion widely distributed in nature. It is also an essential parameter to consider when assessing the water quality for ensuring drinking water safety, preventing infrastructure damage, mitigating environmental impact, identifying groundwater contamination. This work presents the first development of a diameter-based measurement paper sensor for chloride analysis using the reaction based on a Mohr's precipitation titration. The paper sensor that has a circular shape with 3-cm diameter was pre-coated with AgNO3 and CrO42− forming brown precipitates of the Ag2CrO4. The sensor was sealed using lamination films with 3-mm diameter hole-punched inlets on the top of the lamination film for sample delivery. To detect chloride, the sensor was simply immersed into the sample. The chloride solution flows into the central sample inlet and spreads radially to undergo the displacement reaction with Ag2CrO4 precipitate, forming AgCl white precipitate whose diameter proportional to the chloride that can be observed within 3 min. Concentration of AgNO3 used was found to impact the analytical figures of merit. The lower AgNO3 concentration yields lower limit of detection, narrower linear range but higher sensitivity. The sensor was applied for chloride analysis in tap water, drinking water and industrial water and the chloride concentration obtained from the developed sensors are not significant differences from those obtained from the standard titration method at 95% confidence interval (two tailed P = 0.08) indicating that the developed sensor provides accurate analysis of chloride in water samples from various sources. The developed sensor was used by the untrained staffs for on-site of analysis chloride in tap water collected at 26 locations in SaenSuk Municipality area, Chonburi, Thailand. The results showed that the chloride level in all samples is in range of 52.2–84.7 mg L−1 which is far below the acceptable range set by the Provincial Waterwork Authority of Thailand (< 250 mg L−1) indicating that the tap water used in this area is safe for consumers.

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来源期刊
Talanta Open
Talanta Open Chemistry-Analytical Chemistry
CiteScore
5.20
自引率
0.00%
发文量
86
审稿时长
49 days
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