Decolourisation of metal-azo dyes in wastewaters by sodium peroxodisulphate: a template for experimental investigations

Philip C.W. Cheung; Daryl R. Williams; Donald W. Kirk; Pamela J. Murphy; Stephen J. Barton; James Barker

doi:10.2174/25902776-v16-e230216-2022-2

Decolourisation of metal-azo dyes in wastewaters by sodium peroxodisulphate: a template for experimental investigations

Philip C.W. Cheung
, Daryl R. Williams
, Donald W. Kirk
, Pamela J. Murphy
, Stephen J. Barton
, James Barker

Research output: Contribution to journal › Article › peer-review

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Abstract

Background: It has long been recognized that the presence of azo metal complex dyes and their non-complexed counterparts in wastewaters, which is due totheir manufacturing and use in the textile industries, renders natural waterways intensely coloured, and is therefore aesthetically unacceptable. Azodye moieties are also known to be precursors of human carcinogenicity.

Objective: This work aimed at the decolourisation of metal-azo dyes present in wastewaters so that pollution of natural bodies of water can be prevented. Decolourisation is indicative of the destruction of the metal-ligand complex, allowing the retrieval of transition metal ions, which are also water contaminants. Fracturing of the azo bond itself minimizes the potential for the carcinogenicity of these dyes.

Methods: Decolourisation is achieved by the oxidative action of free radicals furnished by Na2S2O8, the sodium salt of peroxodisulphuric acid (Marshall’s acid). Raman spectroscopy characterizes the dye (ligand) known as “Eriochrome Black T (EBT)” by a peak at 1425 cm-1. Dismantling of its molecular structure by peroxodisulphate will lead to decolourisation accompanied by the collapse of the peak. Concomitantly, as EBT ligands fracture and cease to chelate, metallic ions are released, oxidized to a higher oxidation state, and precipitated as insoluble compounds in alkaline media.

Results: The concentration of metallic ions in the aqueous phase has been found to be substantially reduced. The successfully treated dye solutions aremostly clear and colourless; their Beer-Lambert absorbances are in the range of 0.02 ≤ absorbance ≤ 0.05. The treatment of Ni(II), Co(II) and Fe(II)-EBT solutions is straightforward; the Cu(II) and Cr(III)-EBT solutions require additional treatment to be included in the above absorbancerange. The Cr(III)-EBT is the least responsive to treatment. Fracturing of the azo bond is evinced by Raman Spectroscopy.

Conclusion: A template to investigate the feasibility of decolourisation of metal-complex dye solutions is pioneered and recommended.

Original language	English
Article number	e259027762301240
Number of pages	18
Journal	The Open Environmental Research Journal
Volume	16
Early online date	28 Mar 2023
DOIs	https://doi.org/10.2174/25902776-v16-e230216-2022-2
Publication status	Published - 2023

Keywords

Azo-metallic dyes
Decolourisation
Metal-azo dyes
Peroxodisulphate
Raman spectroscopy
Wastewater

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10.2174/25902776-v16-e230216-2022-2Licence: CC BY

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@article{424110e1d4cc45a8940292df1d9c68cb,

title = "Decolourisation of metal-azo dyes in wastewaters by sodium peroxodisulphate: a template for experimental investigations",

abstract = "Background: It has long been recognized that the presence of azo metal complex dyes and their non-complexed counterparts in wastewaters, which is due totheir manufacturing and use in the textile industries, renders natural waterways intensely coloured, and is therefore aesthetically unacceptable. Azodye moieties are also known to be precursors of human carcinogenicity. Objective: This work aimed at the decolourisation of metal-azo dyes present in wastewaters so that pollution of natural bodies of water can be prevented. Decolourisation is indicative of the destruction of the metal-ligand complex, allowing the retrieval of transition metal ions, which are also water contaminants. Fracturing of the azo bond itself minimizes the potential for the carcinogenicity of these dyes. Methods: Decolourisation is achieved by the oxidative action of free radicals furnished by Na2S2O8, the sodium salt of peroxodisulphuric acid (Marshall{\textquoteright}s acid). Raman spectroscopy characterizes the dye (ligand) known as “Eriochrome Black T (EBT)” by a peak at 1425 cm-1. Dismantling of its molecular structure by peroxodisulphate will lead to decolourisation accompanied by the collapse of the peak. Concomitantly, as EBT ligands fracture and cease to chelate, metallic ions are released, oxidized to a higher oxidation state, and precipitated as insoluble compounds in alkaline media. Results: The concentration of metallic ions in the aqueous phase has been found to be substantially reduced. The successfully treated dye solutions aremostly clear and colourless; their Beer-Lambert absorbances are in the range of 0.02 ≤ absorbance ≤ 0.05. The treatment of Ni(II), Co(II) and Fe(II)-EBT solutions is straightforward; the Cu(II) and Cr(III)-EBT solutions require additional treatment to be included in the above absorbancerange. The Cr(III)-EBT is the least responsive to treatment. Fracturing of the azo bond is evinced by Raman Spectroscopy. Conclusion: A template to investigate the feasibility of decolourisation of metal-complex dye solutions is pioneered and recommended.",

keywords = "Azo-metallic dyes, Decolourisation, Metal-azo dyes, Peroxodisulphate, Raman spectroscopy, Wastewater",

author = "Cheung, \{Philip C.W.\} and Williams, \{Daryl R.\} and Kirk, \{Donald W.\} and Murphy, \{Pamela J.\} and Barton, \{Stephen J.\} and James Barker",

year = "2023",

doi = "10.2174/25902776-v16-e230216-2022-2",

language = "English",

volume = "16",

journal = "The Open Environmental Research Journal",

issn = "2590-2776",

publisher = "Bentham Science Publishers",

}

TY - JOUR

T1 - Decolourisation of metal-azo dyes in wastewaters by sodium peroxodisulphate

T2 - a template for experimental investigations

AU - Cheung, Philip C.W.

AU - Williams, Daryl R.

AU - Kirk, Donald W.

AU - Murphy, Pamela J.

AU - Barton, Stephen J.

AU - Barker, James

PY - 2023

Y1 - 2023

N2 - Background: It has long been recognized that the presence of azo metal complex dyes and their non-complexed counterparts in wastewaters, which is due totheir manufacturing and use in the textile industries, renders natural waterways intensely coloured, and is therefore aesthetically unacceptable. Azodye moieties are also known to be precursors of human carcinogenicity. Objective: This work aimed at the decolourisation of metal-azo dyes present in wastewaters so that pollution of natural bodies of water can be prevented. Decolourisation is indicative of the destruction of the metal-ligand complex, allowing the retrieval of transition metal ions, which are also water contaminants. Fracturing of the azo bond itself minimizes the potential for the carcinogenicity of these dyes. Methods: Decolourisation is achieved by the oxidative action of free radicals furnished by Na2S2O8, the sodium salt of peroxodisulphuric acid (Marshall’s acid). Raman spectroscopy characterizes the dye (ligand) known as “Eriochrome Black T (EBT)” by a peak at 1425 cm-1. Dismantling of its molecular structure by peroxodisulphate will lead to decolourisation accompanied by the collapse of the peak. Concomitantly, as EBT ligands fracture and cease to chelate, metallic ions are released, oxidized to a higher oxidation state, and precipitated as insoluble compounds in alkaline media. Results: The concentration of metallic ions in the aqueous phase has been found to be substantially reduced. The successfully treated dye solutions aremostly clear and colourless; their Beer-Lambert absorbances are in the range of 0.02 ≤ absorbance ≤ 0.05. The treatment of Ni(II), Co(II) and Fe(II)-EBT solutions is straightforward; the Cu(II) and Cr(III)-EBT solutions require additional treatment to be included in the above absorbancerange. The Cr(III)-EBT is the least responsive to treatment. Fracturing of the azo bond is evinced by Raman Spectroscopy. Conclusion: A template to investigate the feasibility of decolourisation of metal-complex dye solutions is pioneered and recommended.

AB - Background: It has long been recognized that the presence of azo metal complex dyes and their non-complexed counterparts in wastewaters, which is due totheir manufacturing and use in the textile industries, renders natural waterways intensely coloured, and is therefore aesthetically unacceptable. Azodye moieties are also known to be precursors of human carcinogenicity. Objective: This work aimed at the decolourisation of metal-azo dyes present in wastewaters so that pollution of natural bodies of water can be prevented. Decolourisation is indicative of the destruction of the metal-ligand complex, allowing the retrieval of transition metal ions, which are also water contaminants. Fracturing of the azo bond itself minimizes the potential for the carcinogenicity of these dyes. Methods: Decolourisation is achieved by the oxidative action of free radicals furnished by Na2S2O8, the sodium salt of peroxodisulphuric acid (Marshall’s acid). Raman spectroscopy characterizes the dye (ligand) known as “Eriochrome Black T (EBT)” by a peak at 1425 cm-1. Dismantling of its molecular structure by peroxodisulphate will lead to decolourisation accompanied by the collapse of the peak. Concomitantly, as EBT ligands fracture and cease to chelate, metallic ions are released, oxidized to a higher oxidation state, and precipitated as insoluble compounds in alkaline media. Results: The concentration of metallic ions in the aqueous phase has been found to be substantially reduced. The successfully treated dye solutions aremostly clear and colourless; their Beer-Lambert absorbances are in the range of 0.02 ≤ absorbance ≤ 0.05. The treatment of Ni(II), Co(II) and Fe(II)-EBT solutions is straightforward; the Cu(II) and Cr(III)-EBT solutions require additional treatment to be included in the above absorbancerange. The Cr(III)-EBT is the least responsive to treatment. Fracturing of the azo bond is evinced by Raman Spectroscopy. Conclusion: A template to investigate the feasibility of decolourisation of metal-complex dye solutions is pioneered and recommended.

KW - Azo-metallic dyes

KW - Decolourisation

KW - Metal-azo dyes

KW - Peroxodisulphate

KW - Raman spectroscopy

KW - Wastewater

U2 - 10.2174/25902776-v16-e230216-2022-2

DO - 10.2174/25902776-v16-e230216-2022-2

M3 - Article

SN - 2590-2776

VL - 16

JO - The Open Environmental Research Journal

JF - The Open Environmental Research Journal

M1 - e259027762301240

ER -

Decolourisation of metal-azo dyes in wastewaters by sodium peroxodisulphate: a template for experimental investigations

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