Carbon nanodots-based C-dips for rapid colorimetric detection of clinically important metal ions

S. Nishat, Malik Wasim Abbas, F. Awan, R. A. Soomro
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Abstract

Owing to unique physical and optical properties, fluorescent carbon dots (C-dots) are used in various biomedical applications. In this study, C-dots have been integrated as sensing agent on paper surface for colorimetric determination of clinically important analytes. Polyacrylamide-based C-dots coated C-dips showed visible color change from white to brown for iron (Fe2+, Fe3+) sample. Moreover, iron and copper (Cu2+) samples showed significant quenching of C-dots under UV. Images captured with/without UV were analyzed to study the relationship between different iron and copper concentrations and colorimetric intensity values. Color intensity and fluorescence showed a linear relationship with concentrations of iron and copper (Range: 1×10-4 to 1×10-2 M, Linearity: R2 = 0.94). LOD from the paper sensor showed a sensitivity of 3.89×10-5 μM, 4.65×10-5 μM and 6.7×10-5 μM for Fe3+, Fe2+ and Cu2+ respectively, reflecting its reliability as low-cost sensing solution to analyze clinically relevant analytes as reported in current study.
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基于碳纳米点的c -dip快速比色检测临床重要的金属离子
由于其独特的物理和光学特性,荧光碳点(C-dots)被广泛应用于各种生物医学领域。本研究将C-dots作为传感剂集成在纸张表面,用于临床重要分析物的比色测定。对于铁(Fe2+, Fe3+)样品,聚丙烯酰胺基c点涂层c -dip的颜色由白色变为棕色。此外,铁和铜(Cu2+)样品在紫外线下表现出明显的c点猝灭现象。分析了使用/不使用UV捕获的图像,以研究不同铁和铜浓度与比色强度值之间的关系。颜色强度和荧光与铁和铜的浓度呈线性关系(范围:1×10-4 ~ 1×10-2 M,线性:R2 = 0.94)。纸质传感器的LOD对Fe3+、Fe2+和Cu2+的灵敏度分别为3.89×10-5 μM、4.65×10-5 μM和6.7×10-5 μM,反映了本研究报道的该传感器作为低成本传感解决方案用于临床相关分析的可靠性。
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来源期刊
Kuwait Journal of Science & Engineering
Kuwait Journal of Science & Engineering MULTIDISCIPLINARY SCIENCES-
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审稿时长
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