Colorimetric and Fluorescent Sensing of Copper Ions in Water through o-Phenylenediamine-Derived Carbon Dots-Reference-Cited by-同舟云学术

Colorimetric and Fluorescent Sensing of Copper Ions in Water through o-Phenylenediamine-Derived Carbon Dots

Published:2023-03-10 Issue:6 Volume:23 Page:3029
ISSN:1424-8220
Container-title:Sensors
language:en
Short-container-title:Sensors

Author:

Pizzoferrato Roberto¹^ORCID,Bisauriya Ramanand¹^ORCID,Antonaroli Simonetta²^ORCID,Cabibbo Marcello³^ORCID,Moro Artur J.⁴^ORCID

Affiliation:

1. Department of Industrial Engineering, University of Rome Tor Vergata, 00133 Rome, Italy

2. Department of Chemical Sciences and Technology, University of Rome Tor Vergata, 00133 Rome, Italy

3. Department of Industrial Engineering and Mathematical Sciences (DIISM), Università Politecnica Delle Marche, 60131 Ancona, Italy

4. LAQV-REQUIMTE, Departamento de Química, CQFB, Universidade Nova de Lisboa, 2829-516 Caparica, Portugal

Abstract

Fluorescent nitrogen and sulfur co-doped carbon dots (NSCDs) were synthesized using a simple one-step hydrothermal method starting from o-phenylenediamine (OPD) and ammonium sulfide. The prepared NSCDs presented a selective dual optical response to Cu(II) in water through the arising of an absorption band at 660 nm and simultaneous fluorescence enhancement at 564 nm. The first effect was attributed to formation of cuprammonium complexes through coordination with amino functional groups of NSCDs. Alternatively, fluorescence enhancement can be explained by the oxidation of residual OPD bound to NSCDs. Both absorbance and fluorescence showed a linear increase with an increase of Cu(II) concentration in the range 1–100 µM, with the lowest detection limit of 100 nM and 1 µM, respectively. NSCDs were successfully incorporated in a hydrogel agarose matrix for easier handling and application to sensing. The formation of cuprammonium complexes was strongly hampered in an agarose matrix while oxidation of OPD was still effective. As a result, color variations could be perceived both under white light and UV light for concentrations as low as 10 µM. Since these color changes were similarly perceived in tap and lake water samples, the present method could be a promising candidate for simple, cost-effective visual monitoring of copper onsite.

Publisher

MDPI AG

Subject

Electrical and Electronic Engineering,Biochemistry,Instrumentation,Atomic and Molecular Physics, and Optics,Analytical Chemistry

Link

https://www.mdpi.com/1424-8220/23/6/3029/pdf

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