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新型双重荧光传感器的合成及其用于左旋多巴和吡哆醇的同时分析。

Novel synthesis of a dual fluorimetric sensor for the simultaneous analysis of levodopa and pyridoxine.

机构信息

Department of Chemistry, Isfahan University of Technology, Emam Boulevard, Isfahan, 84156-83111, Iran.

出版信息

Anal Bioanal Chem. 2021 Jan;413(2):377-387. doi: 10.1007/s00216-020-03005-9. Epub 2020 Oct 27.

DOI:10.1007/s00216-020-03005-9
PMID:33106947
Abstract

Herein, a fluorimetric sensor was fabricated based on molecularly imprinted polymers (MIPs) with two types of carbon dots as fluorophores. The MIPs produced had similar excitation wavelengths (400 nm) and different emission wavelengths (445 and 545 nm). They were used for the simultaneous analysis of levodopa and pyridoxine. First, two types of carbon dots, i.e. nitrogen-doped carbon dots (NCDs) with a quantum yield of 43%, and carbon dots from o-phenylenediamine (O-CDs) with a quantum yield of 17%, were prepared using the hydrothermal method. Their surfaces were then covered with MIPs through the reverse microemulsion method. Finally, a mixture of powdered NCD@MIP and O-CD@MIP nanocomposites was used for the simultaneous fluorescence measurement of levodopa and pyridoxine. Under optimal conditions using response surface methodology and Design-Expert software, a linear dynamic range of 38 to 369 nM and 53 to 457 nM, and detection limits of 13 nM and 25 nM were obtained for levodopa and pyridoxine, respectively. The capability of the proposed fluorimetric sensor was investigated in human blood serum and urine samples. Graphical Abstract Schematic representation of nitrogen-doped carbon dots (NCDs), carbon dots from o-phenylenediamine (O-CDs), NCDs coated with imprinted polymers (NCD@MIPs), and O-CDs coated with imprinted polymers (O-CD@MIPs) in the presence and absence of levodopa and pyridoxine.

摘要

本文基于两种类型的碳点作为荧光团,制备了荧光传感器。所制备的分子印迹聚合物(MIPs)具有相似的激发波长(400nm)和不同的发射波长(445nm 和 545nm)。它们用于左旋多巴和吡哆醇的同时分析。首先,通过水热法制备了两种类型的碳点,即量子产率为 43%的氮掺杂碳点(NCDs)和量子产率为 17%的邻苯二胺碳点(O-CDs)。然后,通过反相微乳液法在其表面覆盖 MIPs。最后,将粉末状 NCD@MIP 和 O-CD@MIP 纳米复合材料的混合物用于同时荧光测量左旋多巴和吡哆醇。在使用响应面法和 Design-Expert 软件的最佳条件下,分别获得了左旋多巴和吡哆醇的线性动态范围为 38 至 369nM 和 53 至 457nM,检测限为 13nM 和 25nM。在人血清和尿液样本中研究了所提出的荧光传感器的性能。

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