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Literature DB >> 33284604

Simple Colorimetric and Fluorescence Chemosensing Probe for Selective Detection of Sn²⁺ Ions in an Aqueous Solution: Evaluation of the Novel Sensing Mechanism and Its Bioimaging Applications.

Palanisamy Ravichandiran¹, Vignesh Krishnamoorthi Kaliannagounder^2,3, Antony Paulraj Bella⁴, Anna Boguszewska-Czubara⁵, Maciej Masłyk⁶, Cheol Sang Kim^2,7, Chan Hee Park^2,7, Princy Merlin Johnson⁴, Byung-Hyun Park⁸, Myung-Kwan Han⁹, Ae Rhan Kim^1,10, Dong Jin Yoo^1,10.

Abstract

An easily accessible colorimetric and fluorescence probe 4-((3-chloro-1,4-dioxo-1,4-dihydronaphthalen-2-yl)amino)benzenesulfonamide (4CBS) was successfully developed for the selective and sensitive detection of Sn2+ in an aqueous solution. The sensing mechanism involves reduction of -C═O into -C-OH groups in 4CBS upon the addition of Sn2+, which initiates the fluorescence turn-on mode. A better linear relationship was achieved between fluorescence intensity and Sn2+ concentration in the range of 0-62.5 μM, with a detection limit (LOD) of 0.115 μM. The binding mechanism of 4CBS for Sn2+ was confirmed by Fourier transform infrared analysis, NMR titrations, and mass (electrospray ionization) spectral analysis. Likewise, the proposed sensing mechanism was supported by quantum chemical calculations. Moreover, bioimaging studies demonstrated that the chemosensing probe 4CBS is an effective fluorescent marker for the detection of Sn2+ in living cells and zebrafish. Significantly, 4CBS was able to discriminate between Sn2+ in human cancer cells and Sn2+ in normal live cells.

Entities: Chemical Disease Species

Year: 2020 PMID： 33284604 DOI： 10.1021/acs.analchem.0c03196

Source DB: PubMed Journal: Anal Chem ISSN： 0003-2700 Impact factor: 6.986

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Simple Colorimetric and Fluorescence Chemosensing Probe for Selective Detection of Sn2+ Ions in an Aqueous Solution: Evaluation of the Novel Sensing Mechanism and Its Bioimaging Applications.

1. A ratiometric fluorescence and colorimetric dual-mode sensing platform based on sulfur quantum dots and carbon quantum dots for selective detection of Cu2.

2. Rhodamine-based chemosensor for Sn2+ detection and its application in nanofibrous film and bioimaging.