A novel difunctional COF-loaded peptide Au nanocluster probe and its application to molecular spectral determination of trace Cd2

[Display omitted] •COF-PTAuNC with recognition and catalytic amplification di-function was prepared.•COF-PTAuNC exhibits strong catalysis of the AuNP trimode indicator reaction.•A new nanocatalytic amplification-tetramode biosensor was established for Cd2+.•The method is simple, sensitive and select...

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Bibliographic Details
Published in:Microchemical journal 2023-10, Vol.193, p.109067, Article 109067
Main Authors: Shu, Yiyi, Wen, Guiqing, Liang, Aihui, Jiang, Zhiliang
Format: Article
Language:English
Subjects:
AuNPs
Catalysis
Cd2
COF-PTAuNC probe
SERS quantitative analysis
Three-mode indicator reaction
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Summary:[Display omitted] •COF-PTAuNC with recognition and catalytic amplification di-function was prepared.•COF-PTAuNC exhibits strong catalysis of the AuNP trimode indicator reaction.•A new nanocatalytic amplification-tetramode biosensor was established for Cd2+.•The method is simple, sensitive and selective. Nanoclusters (NCs) have extremely strong catalytic activity, but their stability is poor. Loading them on covalent-organic framework (COF) not only increase their stability but also hold strong catalysis. Furthermore, COF-loaded peptide nanoclusters have attracted wide spread attention due to specific recognition, strong catalytic amplification and good stability. Cd2+ was one of important metal of pollution, and it is of great significance to explore new peptide assay for Cd2+. This study was synthesized COF-loaded peptide AuNC (COF-PTAuNC) nanoprobes with recognition and catalysis functions using the peptide Csy-Pro-Pro-Cys-Trp-NH2 (PT) as a template. The experiment found that COF-PTAuNC not only recognize Cd2+ but also had a strong catalytic effect on the indicator reaction of HAuCl4-sodium formate (Fo) to produce gold nanoparticles (AuNPs) to amplify the signal. The AuNPs has an absorption (Abs), resonance Rayleigh scattering (RRS) and surface enhanced Raman scattering (SERS) peak at 533 nm, 370 nm and 1618 cm−1 respectively. Using this new strategy, the concentration of Cd2+ in the range of 0.4–50 nmol/L had a linear relationship with the SERS intensity, and the detection limit (DL) was 0.16 nmol/L. This method has been used to detect Cd2+ content in water and rice samples, with recovery and relative standard deviation(RSD) of 91.8–109.8% and 1.2–8.7%, respectively.
ISSN:0026-265X
1095-9149
DOI:10.1016/j.microc.2023.109067