4.7 Article

Utilizing inner filter effect in resonance Rayleigh scattering technique: a case study with silver nanocubes as RRS probe and several analytes as absorbers

Journal

MICROCHIMICA ACTA
Volume 190, Issue 1, Pages -

Publisher

SPRINGER WIEN
DOI: 10.1007/s00604-022-05609-7

Keywords

Inner filter effect; Resonance Rayleigh scattering; Silver nanocubes; Doxorubicin; Sunitinib; Alizarin Red S

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The mechanism of the inner filter effect (IFE) can be effectively utilized in the design of innovative IFE-based sensors using resonance Rayleigh scattering (RRS) technique. Silver nanocubes (Ag NCs) with tunable extinction spectra were employed as RRS probes, and three typical analytes, doxorubicin (DOX), sunitinib (SUN), and Alizarin Red S (ARS), were considered. The results demonstrated the feasibility of the newly developed IFE mechanism as an attractive analytical technique for measuring different analytes.
It was demonstrated that the mechanism of the inner filter effect (IFE) can emerge well in the resonance Rayleigh scattering (RRS) technique and be utilized as a new analytical method in the design of innovative IFE-based sensors. To prove this process, silver nanocubes (Ag NCs) with tunable extinction spectra were selected as RRS probes, and three analytes, doxorubicin (DOX), sunitinib (SUN), and Alizarin Red S (ARS), were considered as the typical absorbers. In addition, in the presence of SUN as a typical analyte, the quenching of the RRS signal of Ag NCs, with lambda(max) of 419 nm, was linear in the range 0.01 to 2.5 mu M of SUN. The limit of detection (LOD) was 0.0025 mu M. The introduced method was then used to develop a dual-signal assay for the ratiometric determination of Al3+ ions. The suggested dual-signal assay was based on the color changes of ARS caused by Al3+ and the IFE between ARS and Ag NCs. The obtained results showed that the two characteristics of response sensitivity and linear dynamic range are very satisfactory for sensing Al3+ ions. The findings of this study demonstrate that the newly developed IFE mechanism can be employed as an attractive and highly efficient analytical technique for measuring different analytes.

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