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The rapid and sensitive detection of trace copper ions by L-cysteine capped ZnS nanoparticle fluorescent probe and the insight into micro-mechanism: Experiments and DFT study. | LitMetric

AI Article Synopsis

  • L-Cysteine (L-Cys) capped ZnS nanoparticles (L-ZnS) were created, increasing fluorescence intensity over ZnS by over 3.5 times due to new bond formation.
  • The presence of copper ions (Cu) significantly quenched L-ZnS fluorescence, allowing for sensitive detection of Cu with a limit of detection (LOD) of 7.28 nM.
  • Advanced analysis techniques revealed that specific oxygen atoms in L-Cys interact with Cu, leading to non-luminescent complexes and providing insights into the mechanisms behind both fluorescence enhancement and quenching.

Article Abstract

L-cysteine (L-Cys) capped ZnS fluorescent probe (L-ZnS) were synthesized by binding ZnS nanoparticles in situ with L-Cys, the fluorescence intensity of L-ZnS increased more than 3.5 times than that of ZnS due to the cleavage of S-H bonds and the formation of Zn-S bonds between the thiol group of L-Cys and ZnS. The addition of copper ions (Cu) can effectively quench the fluorescence of L-ZnS to realize the rapid detection of trace Cu. The L-ZnS showed high sensitivity and selectivity to Cu. The LOD (limit of detection) of Cu was as low as 7.28 nM and linearity in the concentration range of 3.5-25.5 μM. Meanwhile, for the first time, electron localization function (ELF), bond order density (BOD), and natural adaptive orbital (NAdO) analysis in the Multiwfn wavefunction program based on density functional theory were carried out to probe the binding sites and binding mode of L-Cys with Cu, it indicated that the deprotonated carboxyl oxygen atoms of L-Cys had the lowest electrostatic potential (ESP) and provided lone pair electrons to coordinate with Cu to form non-luminescent ground state complexes, which led to fluorescence quenching of L-ZnS. From the microscopic point of view of atoms, the mechanism of fluorescence enhancement of L-Cys capped ZnS and the mechanism of fluorescence quenching after adding Cu were revealed in depth, the theoretical analysis results were accordance with the experiments.

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Source
http://dx.doi.org/10.1016/j.saa.2023.122570DOI Listing

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