Ultrasound‐assisted reverse micelle synthesis of Eu-MOF as a turn-off luminescent sensor for the ultrasensitive and selective detection of caffeine

IF 2.8 4区 工程技术 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC
Hadiseh Mirhosseini, Tayebeh Shamspur, Ali Mostafavi, Mika Sillanpää
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引用次数: 0

Abstract

In this work, Europium-metal organic framework (Eu-MOF) was successfully fabricated via an efficient and rapid ultrasound-assisted reverse micelle method. The as-synthesized Eu-MOF served as a fluorescence sensor to detection of caffeine via a fluorescent quenching mechanism. The effect of detection parameters including pH, incubation time, and temperature on the fluorescence detection of caffeine were studied by response surface methodology (RSM). The developed fluorescence sensor exhibited excellent sensitivity and selectivity for the detection of caffeine with a good linear relationship and limit of detection (LOD) of 0.0316 μM. The proposed system was used for the detection of caffeine in real samples and exhibited high accuracy and precision with recoveries ranging from 96.40 to 103.20% and relative standard deviations (RSD) of 2.04 to 4.43%. The highly sensitive and selective detection of as-synthesized, Eu-MOF which was synthesized by efficient and rapid ultrasound-assisted reverse micelle procedure, may make it a potential luminescent sensor in the future.

超声辅助反向胶束合成 Eu-MOF 作为关断发光传感器,用于超灵敏和选择性检测咖啡因
本研究采用高效快速的超声辅助反向胶束法成功制备了铕金属有机框架(Eu-MOF)。合成的 Eu-MOF 可作为荧光传感器,通过荧光淬灭机制检测咖啡因。利用响应面方法(RSM)研究了 pH 值、孵育时间和温度等检测参数对咖啡因荧光检测的影响。所开发的荧光传感器对咖啡因的检测具有良好的灵敏度和选择性,线性关系良好,检测限(LOD)为 0.0316 μM。所提出的系统被用于检测真实样品中的咖啡因,其准确度和精密度都很高,回收率为 96.40% 至 103.20%,相对标准偏差(RSD)为 2.04% 至 4.43%。通过高效、快速的超声辅助反向胶束法合成的 Eu-MOF 具有高灵敏度和高选择性的检测能力,未来可能成为一种潜在的发光传感器。
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来源期刊
Journal of Materials Science: Materials in Electronics
Journal of Materials Science: Materials in Electronics 工程技术-材料科学:综合
CiteScore
5.00
自引率
7.10%
发文量
1931
审稿时长
2 months
期刊介绍: The Journal of Materials Science: Materials in Electronics is an established refereed companion to the Journal of Materials Science. It publishes papers on materials and their applications in modern electronics, covering the ground between fundamental science, such as semiconductor physics, and work concerned specifically with applications. It explores the growth and preparation of new materials, as well as their processing, fabrication, bonding and encapsulation, together with the reliability, failure analysis, quality assurance and characterization related to the whole range of applications in electronics. The Journal presents papers in newly developing fields such as low dimensional structures and devices, optoelectronics including III-V compounds, glasses and linear/non-linear crystal materials and lasers, high Tc superconductors, conducting polymers, thick film materials and new contact technologies, as well as the established electronics device and circuit materials.
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