Cadmium selenium quantum dot based nanosensor with femto molar level sensitivity for the detection of the pesticide endosulfan

Journal of polymer science and engineering Pub Date : 2024-01-19 DOI:10.24294/jpse.v6i1.3208

L. V. Nair, R. Nair, R. Jayasree

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Abstract

Endosulfan (6,7,8,9,10,10-Hexachloro-1,5,5a,6,9,9a-hexahydro-6,9-methano-2,4,3-benzodioxathiepine-3-oxide) is an off-patent insecticide used in agricultural farms. Its usage as a pesticide has become highly controversial during the last decades. This is due to its reported hazardous nature to the health and side effects like growth retardation, hydrocephalus, and undesired changes in the male and female hormones leading to complications in sexual maturity. Endosulfan is the main culprit among all pesticide poisoning incidents around the world. Though the usage of this dreaded pesticide is banned by most countries, the high stability of this molecule to withstand degradation for a long period poses a threat to mankind even today. So, it has become highly essential to detect the presence of this poisonous pesticide in the drinking water and milk around these places. It is also advisable to check the presence of this toxic material in the blood of the population living in and around these places so that an early and appropriate management strategy can be adopted. With this aim, we have developed a sensor for endosulfan that displayed high selectivity and sensitivity among all other common analytes in water and biological samples, with a wide linear concentration range (2 fM to 2 mM), a low detection limit (2 fM), and rapid response. A citrate functionalized cadmium selenium quantum dot was used for this purpose, which showed a concentration-dependent fluorescence enhancement, enabling easy and sensitive sensing. This sensor was utilized to detect endosulfan in different sources of water, human blood serum and milk samples with good recoveries. It is also noted that the quantum dot forms a stable complex with endosulfan and is easy to separate it from the contaminated source, paving a solution for purifying the contaminated water. More detailed tests and validation of the sensor is needed to confirm these observations.

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基于镉硒量子点的纳米传感器具有飞摩尔级灵敏度，可用于检测农药硫丹

硫丹（6,7,8,9,10,10-Hexachloro-1,5,5a,6,9,9a-hexahydro-6,9-methano-2,4,3-benzodioxathiepine-3-oxide）是一种用于农业农场的非专利杀虫剂。在过去的几十年里，它作为杀虫剂的使用引起了很大争议。这是因为据报道硫丹对健康有害，会产生副作用，如生长迟缓、脑积水、男性和女性荷尔蒙的不良变化导致性成熟并发症等。硫丹是全球所有农药中毒事件中的罪魁祸首。尽管大多数国家都禁止使用这种可怕的杀虫剂，但由于硫丹分子具有高度稳定性，能够长期耐受降解，因此至今仍对人类构成威胁。因此，检测这些地方周围的饮用水和牛奶中是否含有这种有毒杀虫剂已变得十分必要。此外，我们还建议检测这些地方及其周边居民血液中是否含有这种有毒物质，以便及早采取适当的管理策略。为此，我们开发了一种硫丹传感器，该传感器在水和生物样品中的所有其他常见分析物中显示出较高的选择性和灵敏度，线性浓度范围宽（2 fM 至 2 mM），检测限低（2 fM），反应迅速。为此使用了柠檬酸盐官能化的镉硒量子点，该量子点的荧光增强与浓度有关，从而实现了简便灵敏的传感。利用这种传感器检测了不同来源的水、人体血清和牛奶样品中的硫丹，回收率良好。此外，量子点与硫丹形成稳定的复合物，易于从污染源中分离出来，为净化受污染的水提供了解决方案。需要对传感器进行更详细的测试和验证，以确认这些观察结果。

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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Journal of polymer science and engineering

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