Issue 29, 2022

A facile imine-linked covalent organic framework doped with a carbon dot composite for the detection and removal of Hg2+ in surface water

Abstract

Hg2+ is one of the most toxic chemical species in the water environment, and thus developing a new fluorescent covalent organic framework for both the detection and removal of Hg2+ is highly desirable. Herein, a fluorescent composite, termed TpPa-1 COF@CDs, was synthesized by inverse emulsion polymerization method using an imine covalent organic framework as the supporting material and carbon dots as the fluorescent sensor element. The crystallinity, porosity, rich functional receptors (hydroxyl and amino groups), thermal stability and fluorescent properties of TpPa-1 COF@CDs were characterized. The results showed that TpPa-1 COF@CDs exhibited a good detection and removal performance for Hg2+, which was evidenced by its high sensitivity (LOD = 0.75 μg L−1), superior selectivity, large adsorption capacity (235 mg g−1), fast adsorption rate (30 min equilibrium time) and good regeneration (at least five cycles). More importantly, the simple functional monomer, short reaction time and metal-free raw material made TpPa-1 COF@CDs reliable, cost effective and eco-friendly. This research demonstrated the facile construction of a functional covalent organic framework composite for water environmental remediation technologies of metal pollution.

Graphical abstract: A facile imine-linked covalent organic framework doped with a carbon dot composite for the detection and removal of Hg2+ in surface water

Supplementary files

Article information

Article type
Paper
Submitted
24 Feb 2022
Accepted
13 Jun 2022
First published
28 Jun 2022
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2022,12, 18784-18793

A facile imine-linked covalent organic framework doped with a carbon dot composite for the detection and removal of Hg2+ in surface water

Q. I. N. Shili, H. E. Xudong, J. I. N. Fenglong, W. A. N. G. Ying, C. H. U. Hongtao, H. A. N. Shuang, S. U. N. Yangyang and G. A. O. Lidi, RSC Adv., 2022, 12, 18784 DOI: 10.1039/D2RA01236G

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