|
|
基于DCN的荧光传感器的传感性能优化
|
Abstract:
2,6-二氯-4-硝基苯胺(DCN)是一种典型的氯代硝基苯胺类除草剂,但是其在提高农作物产量的同时,也会对人体健康、环境、生态系统和经济带来负面影响。因此,开发一种可以快速、灵敏、便捷的传感器来检测环境中的农药是很有必要的。因此,本文选择一种具有较强蓝绿色发光的杂金属化合物,将其制备为PMMA杂化薄膜,用于特异性检测DCN,并在这种化合物内部封装罗丹明B得到具有双发射特性的复合物,提高了对于DCN的传感能力。
2,6-Dichloro-4-nitroaniline (DCN) is a typical chlorinated nitroaniline herbicide. While it enhances crop yields, it also poses negative impacts on human health, the environment, ecosystems, and the economy. Therefore, it is essential to develop a rapid, sensitive, and convenient sensor for detecting pesticides in the environment. In this study, we selected a strongly blue-green-emitting heterometallic compound and incorporated it into a PMMA hybrid film for the specific detection of DCN. Additionally, Rhodamine B was encapsulated within this compound to create a dual-emission composite, thereby enhancing the sensing capability for DCN.
| [1] | Jia, W., Fan, R., Zhang, J., Geng, Z., Li, P., Sun, J., et al. (2022) Portable Metal-Organic Framework Alginate Beads for High-Sensitivity Fluorescence Detection and Effective Removal of Residual Pesticides in Fruits and Vegetables. Food Chemistry, 377, Article ID: 132054. https://doi.org/10.1016/j.foodchem.2022.132054 |
| [2] | Xu, X., Lian, X., Hao, J., Zhang, C. and Yan, B. (2017) A Double-Stimuli-Responsive Fluorescent Center for Monitoring of Food Spoilage Based on Dye Covalently Modified EuMOFs: From Sensory Hydrogels to Logic Devices. Advanced Materials, 29, Article ID: 1702298. https://doi.org/10.1002/adma.201702298 |
| [3] | Yu, B., Zhu, Z., Qin, W., Wang, H., Li, Y., Liang, F., et al. (2024) Enhancement of Luminescence, Multiple-Sensing, and Differentiated Live-Cell-Imaging Properties of High-Nuclear Lanthanide Nanoclusters via the Zn(II)-Chelate-Controlled Dual Antenna Effect. ACS Materials Letters, 6, 3312-3326. https://doi.org/10.1021/acsmaterialslett.4c00871 |
| [4] | Hussain Shah, J., Sharif, S., Şahin, O., Shahbaz, M., Azeem, W. and Ahmad, S. (2024) A Dual-Emitting Rhodamine B-Encapsulated Zn-Based MOF for the Selective Sensing of Chromium(VI). Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 310, Article ID: 123899. https://doi.org/10.1016/j.saa.2024.123899 |
| [5] | Ma, D., Li, B., Zhou, X., Zhou, Q., Liu, K., Zeng, G., et al. (2013) A Dual Functional MOF as a Luminescent Sensor for Quantitatively Detecting the Concentration of Nitrobenzene and Temperature. Chemical Communications, 49, 8964-8966. https://doi.org/10.1039/c3cc44546a |
| [6] | Zhang, L., Liang, Y., Xiao, Z., Meng, Y., Huang, J., Lin, X., et al. (2024) Lactonization of Dyes Promoted by a Coordination Cage Facilitates Cavity-Induced Chromism as Ion Mobile Detector. Science China Chemistry, 67, 1554-1560. https://doi.org/10.1007/s11426-023-1921-6 |
| [7] | Gehlen, M.H. (2020) The Centenary of the Stern-Volmer Equation of Fluorescence Quenching: From the Single Line Plot to the SV Quenching Map. Journal of Photochemistry and Photobiology C: Photochemistry Reviews, 42, Article ID: 100338. https://doi.org/10.1016/j.jphotochemrev.2019.100338 |
| [8] | Zu, F., Yan, F., Bai, Z., Xu, J., Wang, Y., Huang, Y., et al. (2017) The Quenching of the Fluorescence of Carbon Dots: A Review on Mechanisms and Applications. Microchimica Acta, 184, 1899-1914. https://doi.org/10.1007/s00604-017-2318-9 |
