微型化电化学检测系统对有机磷杀虫剂微萃取、预浓缩及微流控分离的影响

IF 2.2 4区 工程技术 Q3 PHARMACOLOGY & PHARMACY Bioimpacts Pub Date : 2024-01-01 Epub Date: 2023-10-10 DOI:10.34172/bi.2023.25288
Abdollah Abdollahi Aghdam, Mohsen Chamanara, Reza Laripour, Mohsen Ebrahimi
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引用次数: 0

摘要

摘要:建立了一种基于微萃取和微流体耦合的亚ppm浓度下菲硝硫(FT)和对硫磷(PA)的预富集、分离和电化学检测新方法。方法:第一步采用微芯片毛细管电泳技术作为分离检测系统。将分析物注入40 mm长、10 mm侧臂的微通道中。然后,通过在缓冲层和检测层之间施加直接电场(+1800V)将它们分离。2-(n-morpholino)乙磺酸(MES)缓冲液(20 mM, pH 5)作为运行缓冲液。在输出通道方法中,使用三个Pt微电极进行电化学检测,其宽度分别为工作电极、计数电极和参比电极(分别为50、250和250µm)。结果:与伪ref电极相比,该系统的最佳检测电位为-1.2 V。SU-8通道的尺寸为深度20µm,宽度50µm。第二步,采用气助液-液微萃取技术对人血浆中分析物进行萃取和预富集。然后,以1,2二溴ethan为萃取溶剂,对分析物进行预浓缩,将沉淀溶剂(50µL)在60˚C水浴中蒸发,用含10%乙醇的流动缓冲液置换。在水相中加入1% NaCl时,最佳萃取周期为8次。分析时间小于100s,精密度范围为3.3 ~ 8.2,FT和PA的线性范围分别为0.8 ~ 100 ppm和1.2 ~ 100 ppm。FT和PA的提取回收率分别为91%和87%。FT和PA的检出限分别为240和360 ppb。最后,用GC-FID对方法的可靠性进行了验证。结论:所建立的方法和装置经过验证,可作为非硝硫磷和对硫磷杀虫剂的原位和便携式检测系统。
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Micro-extraction, pre-concentration, and microfluidic-based separation of organophosphate insecticides followed by the miniaturized electrochemical detection system.

Introduction: A new analytical method based on the coupling of microextraction and microfluidics was developed and investigated for the pre-concentration, separation, and electrochemical detection of fenitrothion (FT) and parathion (PA) at the sub-ppm concentrations.

Methods: In the first step, the microchip capillary electrophoresis technique was used to serve as a separation and detection system. Analytes were injected in the 40 mm long microchannel with 10 mm sidearms. Then, they were separated by applying a direct electrical field (+1800 V) between the buffer and detection reservoirs. 2-(n-morpholino)ethanesulfonic acid (MES) buffer (20 mM, pH 5) was used as a running buffer. The electrochemical detection was performed using three Pt microelectrodes with the width of working, counter, and reference electrodes (50, 250, and 250 µm, respectively) in the out-channel approach.

Results: The system was devised to have the optimum detection potential equal to -1.2 V vs. pseudo-reference electrode. The dimensions of the SU-8 channel have 20 µm depth and 50 µm width. In the second step, an air-assisted liquid-liquid microextraction technique was used to extract and preconcentration of analytes from human blood plasma. Then, 1, 2 di-bromoethan was used as extractant solvent, the analytes were preconcentrated, and the sedimented solvent (50 µL) was evaporated in a 60 ˚C water bath followed by substitution of running buffer containing 10% ethanol. The optimal extraction cycles were found to be 8 with adding 1% NaCl to the aqueous phase. Analyzing time of the mentioned analytes was less than 100s, the precision range was 3.3 - 8.2 with a linear range of 0.8-100 ppm and 1.2-100 ppm for FT and PA, respectively. The extraction recoveries were about 91% and 87% for FT and PA, respectively. The detection limits for FT and PA were 240 and 360 ppb, respectively. Finally, the reliability of the method was investigated by GC-FID.

Conclusion: The proposed method and device were validated and can be used as in situ and portable detection systems for detecting fenitrothion and parathion insecticides.

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来源期刊
Bioimpacts
Bioimpacts Pharmacology, Toxicology and Pharmaceutics-Pharmaceutical Science
CiteScore
4.80
自引率
7.70%
发文量
36
审稿时长
5 weeks
期刊介绍: BioImpacts (BI) is a peer-reviewed multidisciplinary international journal, covering original research articles, reviews, commentaries, hypotheses, methodologies, and visions/reflections dealing with all aspects of biological and biomedical researches at molecular, cellular, functional and translational dimensions.
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