One-step synthesis of magnetic covalent organic framework composite for the adsorption of marine toxin okadaic acid

A one-step procedure is reported for the synthesis of a crystalline magnetic covalent organic framework (COF) composite. While pre-functionalization of the solid substrate with a building block prior to COF growth is typically required to obtain a crystalline COF composite, our approach uses a sub-s...

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Published inCrystEngComm Vol. 25; no. 16; pp. 2456 - 2462
Main Authors Romero, Vanesa, Fernandes, Soraia P. S, Gonçalves, Liliana P. L, Oliveira, Orlando, Meledina, Maria, Struty ski, Karol, Melle-Franco, Manuel, Kolen'ko, Yury V, Espiña, Begoña, Salonen, Laura M
Format Journal Article
LanguageEnglish
Published Cambridge Royal Society of Chemistry 24.04.2023
Subjects
Adsorption
Aldehydes
Composite materials
Desorption
Dopamine
Nanoparticles
Seawater
Sorbents
Substrates
Synthesis
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Abstract A one-step procedure is reported for the synthesis of a crystalline magnetic covalent organic framework (COF) composite. While pre-functionalization of the solid substrate with a building block prior to COF growth is typically required to obtain a crystalline COF composite, our approach uses a sub-stoichiometric amount of the diamino building block during the COF synthesis. This allows for the anchoring of the excess aldehyde on the dopamine-functionalized magnetic nanoparticles to promote COF growth, giving access to crystalline magnetic COF composite in only one step. No losses in crystallinity or surface area were observed as compared to bulk material. The COF composite was successfully applied for the removal of okadaic acid from synthetic seawater, where the composite material showed adsorption efficiency comparable to that found for the bulk COF. In addition, the material was recyclable during at least three consecutive cycles of adsorption/desorption using 2-propanol as desorption solvent, with merely minor losses in adsorption capacity. This work opens new avenues for synthesizing crystalline COF composites through shorter and easier routes, saving costs of sorbent preparation, and reinforces the great promise of COF composites for application in seawater biotoxin monitoring. One-step synthesis of a crystalline magnetic covalent organic framework composite is reported using a sub-stoichiometric amount of the diamino building block. The composite showed high efficiency for the removal of okadaic acid toxin from seawater.
AbstractList A one-step procedure is reported for the synthesis of a crystalline magnetic covalent organic framework (COF) composite. While pre-functionalization of the solid substrate with a building block prior to COF growth is typically required to obtain a crystalline COF composite, our approach uses a sub-stoichiometric amount of the diamino building block during the COF synthesis. This allows for the anchoring of the excess aldehyde on the dopamine-functionalized magnetic nanoparticles to promote COF growth, giving access to crystalline magnetic COF composite in only one step. No losses in crystallinity or surface area were observed as compared to bulk material. The COF composite was successfully applied for the removal of okadaic acid from synthetic seawater, where the composite material showed adsorption efficiency comparable to that found for the bulk COF. In addition, the material was recyclable during at least three consecutive cycles of adsorption/desorption using 2-propanol as desorption solvent, with merely minor losses in adsorption capacity. This work opens new avenues for synthesizing crystalline COF composites through shorter and easier routes, saving costs of sorbent preparation, and reinforces the great promise of COF composites for application in seawater biotoxin monitoring.
A one-step procedure is reported for the synthesis of a crystalline magnetic covalent organic framework (COF) composite. While pre-functionalization of the solid substrate with a building block prior to COF growth is typically required to obtain a crystalline COF composite, our approach uses a sub-stoichiometric amount of the diamino building block during the COF synthesis. This allows for the anchoring of the excess aldehyde on the dopamine-functionalized magnetic nanoparticles to promote COF growth, giving access to crystalline magnetic COF composite in only one step. No losses in crystallinity or surface area were observed as compared to bulk material. The COF composite was successfully applied for the removal of okadaic acid from synthetic seawater, where the composite material showed adsorption efficiency comparable to that found for the bulk COF. In addition, the material was recyclable during at least three consecutive cycles of adsorption/desorption using 2-propanol as desorption solvent, with merely minor losses in adsorption capacity. This work opens new avenues for synthesizing crystalline COF composites through shorter and easier routes, saving costs of sorbent preparation, and reinforces the great promise of COF composites for application in seawater biotoxin monitoring. One-step synthesis of a crystalline magnetic covalent organic framework composite is reported using a sub-stoichiometric amount of the diamino building block. The composite showed high efficiency for the removal of okadaic acid toxin from seawater.
Author Struty ski, Karol
Fernandes, Soraia P. S
Melle-Franco, Manuel
Espiña, Begoña
Gonçalves, Liliana P. L
Oliveira, Orlando
Romero, Vanesa
Salonen, Laura M
Meledina, Maria
Kolen'ko, Yury V
AuthorAffiliation International Iberian Nanotechnology Laboratory (INL)
Central Facility for Electron Microscopy
Universidade de Vigo
Centro de Investigación Mariña
Forschungszentrum Jülich GmbH
Department of Chemistry
University of Aveiro
CICECO-Aveiro Institute of Materials
Department of Organic Chemistry
Associate Laboratory for Green Chemistry Network of Chemistry and Technology (LAQV-REQUIMTE)
Departamento de Química Analítica y Alimentaria
Ernst Ruska-Centre (ER-C 2)
RWTH Aachen University
CINBIO
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Snippet A one-step procedure is reported for the synthesis of a crystalline magnetic covalent organic framework (COF) composite. While pre-functionalization of the...
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SubjectTerms Adsorption
Aldehydes
Composite materials
Desorption
Dopamine
Nanoparticles
Seawater
Sorbents
Substrates
Synthesis
Title One-step synthesis of magnetic covalent organic framework composite for the adsorption of marine toxin okadaic acid
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