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Your search keyword '"Chen, Guo-Ying"' showing total 8 results
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8 results on '"Chen, Guo-Ying"'

1. Applications of Nanozymes in Chiral-Molecule Recognition through Electrochemical and Ultraviolet–Visible Analysis.

Author

Dai, Jing-Jing, Chen, Guo-Ying, Xu, Lei, Zhu, Huan, and Yang, Feng-Qing

Subjects
*SYNTHETIC enzymes, *ELECTROCHEMICAL analysis, *CHIRAL recognition, *SPECTROMETRY, *COST effectiveness
Abstract

Chiral molecules have similar physicochemical properties, which are different in terms of physiological activities and toxicities, rendering their differentiation and recognition highly significant. Nanozymes, which are nanomaterials with inherent enzyme-like activities, have garnered significant interest owing to their high cost-effectiveness, enhanced stability, and straightforward synthesis. However, constructing nanozymes with high activity and enantioselectivity remains a significant challenge. This review briefly introduces the synthesis methods of chiral nanozymes and systematically summarizes the latest research progress in enantioselective recognition of chiral molecules based on electrochemical methods and ultraviolet–visible absorption spectroscopy. Moreover, the challenges and development trends in developing enantioselective nanozymes are discussed. It is expected that this review will provide new ideas for the design of multifunctional chiral nanozymes and broaden the application field of nanozymes. [ABSTRACT FROM AUTHOR]

Published
2024
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2. Detection of Arsenic(V) by Fluorescence Sensing Based on Chlorin e6-Copper Ion.

Author

Luo, Mao-Ling, Chen, Guo-Ying, Wang, Jia-Li, Chai, Tong-Qing, Qian, Zheng-Ming, Li, Wen-Jia, and Yang, Feng-Qing

Subjects
*ARSENIC, *ARSENIC poisoning, *ARSENIC in water, *FLUORESCENCE quenching, *COPPER ions, *LUMINESCENCE, *FLUORESCENCE
Abstract

The high toxicity of arsenic (As) can cause irreversible harm to the environment and human health. In this study, the chlorin e6 (Ce6), which emits fluorescence in the infrared region, was introduced as the luminescence center, and the addition of copper ion (Cu2+) and As(V) provoked a regular change in fluorescence at 652 nm, whereas that of As(III) was 665 nm, which was used to optionally detect Cu2+, arsenic (As(III), and As(V)). The limit of detection (LOD) values were 0.212 μM, 0.089 ppm, and 1.375 ppb for Cu2+, As(III), and As(V), respectively. The developed method can be used to determine Cu2+ and arsenic in water and soil with good sensitivity and selectivity. The 1:1 stoichiometry of Ce6 with Cu2+ was obtained from the Job plot that was developed from UV–visible spectra. The binding constants for Cu2+ and As(V) were established to be 1.248 × 105 M−1 and 2.35 × 1012 M−2, respectively, using B–H (Benesi–Hildebrand) plots. Fluorescence lifetimes, B–H plots, FT–IR, and 1H-NMR were used to postulate the mechanism of Cu2+ fluorescence quenching and As(V) fluorescence restoration and the interactions of the two ions with the Ce6 molecule. [ABSTRACT FROM AUTHOR]

Published
2024
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