Yang Zheng, Xu Tiantian, Zhang Shaobing, Li Hui, Ji Yali, Jia Xiaodan, Li Jianli
Key Laboratory of Synthetic and Natural Functional Molecule of the Ministry of Education, College of Chemistry & Materials Science, Northwest University, Xi'an, 710127 China.
College of Chemistry and Chemical Engineering, Xi'an University of Science and Technology, Xi'an, 710054 China.
Nano Res. 2023;16(4):5401-5411. doi: 10.1007/s12274-022-5107-7. Epub 2022 Nov 9.
Fluorescent carbon dots (CDs) have been identified as potential nanosensors and attracted tremendous research interests in wide areas including anti-counterfeiting, environmental and biological sensing and imaging in considering of the attractive optical properties. In this work, we present a CDs based fluorescent sensor from polyvinylpyrrolidone, citric acid, and methionine as precursors by hydrothermal approach. The selective quantifying of Fe and ascorbic acid (AA) are based on the fluorescent on-off-on process, in which the fluorescent quenching is induced by the coordination of the Fe on the surface of the CDs, while the fluorescence recovery is mainly attributed to redox reaction between Fe and AA, breaking the coordination and bringing the fluorescence back. Inspired by the good water solubility and biocompatibility, significant photostability, superior photobleaching resistance as well as high selectivity, sensitivity, and interference immunity, which are constructed mainly from the N,S-doping and methionine surface functionalization, the CDs have not only been employed as fluorescence ink in multiple anti-counterfeiting printing and confidential document writing or transmitting, but also been developed as promising fluorescence sensors in solution and solid by CDs doped test strips and hydrogels for effectively monitoring and removing of Fe and AA in environmental aqueous solution. The CDs have been also implemented as effective diagnostic candidates for imaging and tracking of Fe and AA in living cells, accelerating the understanding of their function and importance in related biological processes for the prevention and treatment specific diseases.
Supplementary material (fluorescence spectra: UV and Xe irradiation, TG, thermo stability, ionic strength, relationship between fluorescence responses at different concentrations of Fe and AA, reaction time-dependent fluorescent responses; XPS spectra of CDs + Fe and Fe@CDs + AA; structural characterization; equations about fluorescence lifetime, quantum yield and LOD; comparison of the CDs for the detection of Fe and AA with reported methods; detection of Fe and AA in real samples; absorption of Fe in environmental samples and MTT assay results) is available in the online version of this article at 10.1007/s12274-022-5107-7.
荧光碳点(CDs)已被确定为潜在的纳米传感器,鉴于其具有吸引人的光学特性,在包括防伪、环境与生物传感及成像等广泛领域引起了巨大的研究兴趣。在这项工作中,我们通过水热法,以聚乙烯吡咯烷酮、柠檬酸和蛋氨酸为前驱体,制备了一种基于碳点的荧光传感器。对铁(Fe)和抗坏血酸(AA)的选择性定量基于荧光开关过程,其中荧光猝灭是由碳点表面的铁配位诱导的,而荧光恢复主要归因于铁与抗坏血酸之间的氧化还原反应,打破配位并使荧光恢复。受其良好的水溶性和生物相容性、显著的光稳定性、优异的抗光漂白性以及高选择性、灵敏度和抗干扰性的启发,这些特性主要由氮、硫掺杂和蛋氨酸表面功能化构建而成,碳点不仅被用作多种防伪印刷和机密文件书写或传输中的荧光墨水,还通过碳点掺杂测试条和水凝胶开发成了溶液和固体中颇具前景的荧光传感器,用于有效监测和去除环境水溶液中的铁和抗坏血酸。碳点还被用作活细胞中铁和抗坏血酸成像与追踪的有效诊断候选物,加速了对它们在预防和治疗特定疾病的相关生物过程中的功能及重要性的理解。
补充材料(荧光光谱:紫外和氙灯照射、热重分析、热稳定性、离子强度、不同浓度铁和抗坏血酸下荧光响应的关系、反应时间依赖性荧光响应;碳点+铁和铁@碳点+抗坏血酸的X射线光电子能谱;结构表征;关于荧光寿命、量子产率和检测限的方程;碳点检测铁和抗坏血酸与已报道方法的比较;实际样品中铁和抗坏血酸的检测;环境样品中铁的吸收和MTT分析结果)可在本文的在线版本中获取,链接为10.1007/s12274-022-5107-7。