Issue 15, 2020

Catalyst + chemodosimeter → chemosensor: incorporation of catalytic functionality in an indicator displacement assay to realize reversible chemosensing detection

Abstract

A new bimetallic complex, (CN)3FeII(tppz)CuIICl (tppz = 2,3,5,6-tetra(2′-pyridyl)pyrazine) including an Fe(II)-diimine indicator and a dual functional Cu(II) receptor/catalyst, was synthesized to demonstrate the concept of indicator/catalyst displacement assay for the simultaneous detection and detoxification of cyanide. The catalytic degradation property in the assay was necessary for making the detecting system reversible, which the traditional indicator displacement assays could never achieve. After the realization of this new property, silica-gel-based solid-supporting complex 1 was fabricated for application in a device, which was demonstrated for its use in the naked-eye detection and degradation of cyanide in tap, river, and underground water samples in a repeatable and real-time manner, even in the presence of interfering anions (CH3COO, N3, HCO3, Cl, NO3, HPO42−, SO42−, SCN, and OCN). Within 300 min, cyanide was quantitatively oxidized into the less toxic cyanate by 1 in the presence of H2O2. The detection limit of 1 for cyanide was found to be 1.16 × 10−4 M (3.02 mg L−1).

Graphical abstract: Catalyst + chemodosimeter → chemosensor: incorporation of catalytic functionality in an indicator displacement assay to realize reversible chemosensing detection

Supplementary files

Article information

Article type
Paper
Submitted
18 Nov 2019
Accepted
07 Feb 2020
First published
07 Feb 2020

J. Mater. Chem. C, 2020,8, 5029-5035

Catalyst + chemodosimeter → chemosensor: incorporation of catalytic functionality in an indicator displacement assay to realize reversible chemosensing detection

C. Shen, Q. Tang, C. Gong and C. Chow, J. Mater. Chem. C, 2020, 8, 5029 DOI: 10.1039/C9TC06308K

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