Direct synthesis of efficient silica-based adsorbents carrying EDTA groups for the separation of Cu(II) and Ni(II) ions

Cations of copper and nickel belong to the category of heavy metals that coexist in wastewater from the mining and chemical industries and have similar structures. Selective extraction of their soluble forms is an urgent task in ecoanalytical chemistry. In this study, spherical organosilica particle...

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Published in:Colloids and surfaces. A, Physicochemical and engineering aspects Physicochemical and engineering aspects, 2022-10, Vol.650, p.129538, Article 129538
Main Authors: Stolyarchuk, Nataliya V., Tomina, Veronika V., Mishra, Biswajit, Tripathi, Bijay P., Vaclavikova, Miroslava, Dudarko, Oksana A., Melnyk, Inna V.
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Language:English
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Adsorption
Cu(II) ions
Ethylenediaminetriacetic acid groups
Ni(II) ions
Silica adsorbents
Surface chemistry
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cited_by cdi_FETCH-LOGICAL-c290t-f4442aaeae3f5ea445bf516816742410a299df77a6cf15011d464938eed75da93
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container_start_page 129538
container_title Colloids and surfaces. A, Physicochemical and engineering aspects
container_volume 650
creator Stolyarchuk, Nataliya V.
Tomina, Veronika V.
Mishra, Biswajit
Tripathi, Bijay P.
Vaclavikova, Miroslava
Dudarko, Oksana A.
Melnyk, Inna V.
description Cations of copper and nickel belong to the category of heavy metals that coexist in wastewater from the mining and chemical industries and have similar structures. Selective extraction of their soluble forms is an urgent task in ecoanalytical chemistry. In this study, spherical organosilica particles with ethylenediaminetriacetic acid (EDTA) chelating groups were prepared via a one-pot approach for the purpose of Cu(II) and Ni(II) cation extraction from aqueous solutions. The isoelectric point for such samples is observed at pH = 2–3. It was found that the order of introduction of different components (Si(OEt)4, EDTA–silane) into the reaction solution significantly affects the morphology, particle size (672–915 nm) and porosity (260–447 m2 g–1), without affecting the number of chelating groups (0.56–0.59 mmol g–1) and the sorption capacity. The polysilsesquioxane samples acquired from bis-silane with ethylene bridge and EDTA–silane showed a similar number of EDTA groups (0.93–1.11 mmol g–1) regardless of the silane ratio, with the possibility of controlling the specific surface area values (10–431 m2 g–1) and particle size (300–1200 nm) by varying the proportion of bridged silane. The EDTA-polysilsesquioxanes exhibited sorption capacity up to 1.72 mmol g–1 for Cu(II) and 1.53 mmol g–1 for Ni(II). These samples containing EDTA and silanol groups can be effectively used for the selective removal of copper(II) ions from the cationic mixture by varying the initial pH value of the solution. [Display omitted] •Organosilica particles bearing ethylenediaminetriacetic acid (EDTA) were prepared.•Porosity and EDTA groups content can be regulated via the one-pot process.•The polysilsesquioxanes have up to 1.11 mmol g−1 of EDTA groups and 447 m2g−1 Ssp.•Prepared EDTA-particles adsorb 109.2 mg g−1 of Cu(II) and 89.8 mg g−1 of Ni(II) cations.•The synthesized samples can be applied to separate Cu(II) and Ni(II).
doi_str_mv 10.1016/j.colsurfa.2022.129538
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The polysilsesquioxane samples acquired from bis-silane with ethylene bridge and EDTA–silane showed a similar number of EDTA groups (0.93–1.11 mmol g–1) regardless of the silane ratio, with the possibility of controlling the specific surface area values (10–431 m2 g–1) and particle size (300–1200 nm) by varying the proportion of bridged silane. The EDTA-polysilsesquioxanes exhibited sorption capacity up to 1.72 mmol g–1 for Cu(II) and 1.53 mmol g–1 for Ni(II). These samples containing EDTA and silanol groups can be effectively used for the selective removal of copper(II) ions from the cationic mixture by varying the initial pH value of the solution. 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The polysilsesquioxane samples acquired from bis-silane with ethylene bridge and EDTA–silane showed a similar number of EDTA groups (0.93–1.11 mmol g–1) regardless of the silane ratio, with the possibility of controlling the specific surface area values (10–431 m2 g–1) and particle size (300–1200 nm) by varying the proportion of bridged silane. The EDTA-polysilsesquioxanes exhibited sorption capacity up to 1.72 mmol g–1 for Cu(II) and 1.53 mmol g–1 for Ni(II). These samples containing EDTA and silanol groups can be effectively used for the selective removal of copper(II) ions from the cationic mixture by varying the initial pH value of the solution. 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It was found that the order of introduction of different components (Si(OEt)4, EDTA–silane) into the reaction solution significantly affects the morphology, particle size (672–915 nm) and porosity (260–447 m2 g–1), without affecting the number of chelating groups (0.56–0.59 mmol g–1) and the sorption capacity. The polysilsesquioxane samples acquired from bis-silane with ethylene bridge and EDTA–silane showed a similar number of EDTA groups (0.93–1.11 mmol g–1) regardless of the silane ratio, with the possibility of controlling the specific surface area values (10–431 m2 g–1) and particle size (300–1200 nm) by varying the proportion of bridged silane. The EDTA-polysilsesquioxanes exhibited sorption capacity up to 1.72 mmol g–1 for Cu(II) and 1.53 mmol g–1 for Ni(II). These samples containing EDTA and silanol groups can be effectively used for the selective removal of copper(II) ions from the cationic mixture by varying the initial pH value of the solution. [Display omitted] •Organosilica particles bearing ethylenediaminetriacetic acid (EDTA) were prepared.•Porosity and EDTA groups content can be regulated via the one-pot process.•The polysilsesquioxanes have up to 1.11 mmol g−1 of EDTA groups and 447 m2g−1 Ssp.•Prepared EDTA-particles adsorb 109.2 mg g−1 of Cu(II) and 89.8 mg g−1 of Ni(II) cations.•The synthesized samples can be applied to separate Cu(II) and Ni(II).</abstract><pub>Elsevier B.V</pub><doi>10.1016/j.colsurfa.2022.129538</doi><oa>free_for_read</oa></addata></record>
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subjects Adsorption
Cu(II) ions
Ethylenediaminetriacetic acid groups
Ni(II) ions
Silica adsorbents
Surface chemistry
title Direct synthesis of efficient silica-based adsorbents carrying EDTA groups for the separation of Cu(II) and Ni(II) ions
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