用于增强六价铬荧光传感的表面改性碳量子点

Surface-modified carbon quantum dot for enhanced fluorescent-sensing of hexagonal valent chromium.

作者信息

Shang Kangle, Chen Hansong, Yang Wenwen, He Yucheng, Liu Baoyi, Yi Xuxin, Tan Xiaoli, Fang Ming

机构信息

MOE Key Laboratory of Resources and Environmental System Optimization, College of Environmental Science and Engineering, North China Electric Power University, Beijing, 102206, People's Republic of China.

Xingzhi College, Zhejiang Normal University, Lanxi, 321000, People's Republic of China.

出版信息

Anal Sci. 2025 Apr;41(4):427-437. doi: 10.1007/s44211-025-00716-w. Epub 2025 Jan 21.

DOI:10.1007/s44211-025-00716-w

PMID:39838232

Abstract

As one of the most harmful heavy metal pollutants, hexavalent chromium Cr(VI) is becoming a serious threat to human health. Thus pursuing a remarkably sensitive method to monitor the Cr(VI) concentration in natural conditions is favored for the fast response to prevent harm. In the present work, an ethylenediamine (En) and SiO-modified wool keratin-based carbon quantum dot (CQD)(En@CQDs@SiO) fluorescent sensor is prepared, and the En is found to improve the discrimination ability by binding the Cr(VI) with the surface carboxyl groups. Based on these designs, the En@CQDs@SiO achieves a significant improvement in the Cr(VI) detection ability, with a detection limit of 6.08 × 10 mg/L, which succeeded 6 times over CQDs, and is better than conventional UV-Vis and flame atomic absorption (AAS) techniques. Furthermore, the fluorescent sensor has good relative sensitivity, selectivity, good spectral reproducibility, and excellent structural stability. These properties make the sensor suitable for environmental Cr(VI) detection, which undoubtedly improves the economy and environmental friendliness of the fluorescent sensor.

摘要

作为最有害的重金属污染物之一，六价铬Cr(VI)正成为对人类健康的严重威胁。因此，寻求一种极其灵敏的方法来监测自然条件下的Cr(VI)浓度，对于快速响应以防止危害而言是备受青睐的。在本工作中，制备了一种乙二胺(En)和SiO修饰的羊毛角蛋白基碳量子点(CQD)(En@CQDs@SiO)荧光传感器，并且发现En通过将Cr(VI)与表面羧基结合来提高识别能力。基于这些设计，En@CQDs@SiO在Cr(VI)检测能力上有显著提高，检测限为6.08×10 mg/L，比碳量子点提高了6倍，且优于传统的紫外可见和火焰原子吸收(AAS)技术。此外，该荧光传感器具有良好的相对灵敏度、选择性、良好的光谱重现性和优异的结构稳定性。这些特性使该传感器适用于环境中Cr(VI)的检测，这无疑提高了荧光传感器的经济性和环境友好性。

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用于增强六价铬荧光传感的表面改性碳量子点

Surface-modified carbon quantum dot for enhanced fluorescent-sensing of hexagonal valent chromium.

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