The degradation of paraben preservatives: Recent progress and sustainable approaches toward photocatalysis

Parabens are a class of compounds primarily used as antimicrobial preservatives in pharmaceutical products, cosmetics, and foodstuff. Their widely used field leads to increasing concentrations detected in various environmental matrices like water, soil, and sludges, even detected in human tissue, bl...

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Veröffentlicht in:	Chemosphere (Oxford) 2021-08, Vol.276, p.130163-130163, Article 130163
Hauptverfasser:	Nguyen, Van-Huy, Phan Thi, Lan-Anh, Chandana, P. Sri, Do, Huu-Tuan, Pham, Thuy-Hanh, Lee, Taeyoon, Nguyen, Trinh Duy, Le Phuoc, Cuong, Huong, Pham Thi
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Schlagworte:	Paraben preservatives Pharmaceuticals and personal care products Photocatalysis Photocatalyst
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creator	Nguyen, Van-Huy Phan Thi, Lan-Anh Chandana, P. Sri Do, Huu-Tuan Pham, Thuy-Hanh Lee, Taeyoon Nguyen, Trinh Duy Le Phuoc, Cuong Huong, Pham Thi
description	Parabens are a class of compounds primarily used as antimicrobial preservatives in pharmaceutical products, cosmetics, and foodstuff. Their widely used field leads to increasing concentrations detected in various environmental matrices like water, soil, and sludges, even detected in human tissue, blood, and milk. Treatment techniques, including chemical advanced oxidation, biological degradation, and physical adsorption processes, have been widely used to complete mineralization or to degrade parabens into less complicated byproducts. All kinds of processes were reviewed to give a completed picture of parabens removal. In light of these treatment techniques, advanced photocatalysis, which is emerging rapidly and widely as an economical, efficient, and environmentally-friendly technique, has received considerable attention. TiO2-based and non-TiO2-based photocatalysts play an essential role in parabens degradation. The effect of experimental parameters, such as the concentration of targeted parabens, concentration of photocatalyst, reaction time, and initial solution pH, even the presence of radical scavengers, are surveyed and compared from the literature. Some representative parabens such as methylparaben, propylparaben, and benzylparaben have been successfully studied the reaction pathways and their intermediates in their degradation process. As reported in the literature, the degradation of parabens involves the production of highly reactive species, mainly hydroxyl radicals. These reactive radicals would attack the paraben preservatives, break, and finally mineralize them into simpler inorganic and nontoxic molecules. Concluding perspectives on the challenges and opportunities for photocatalysis toward parabens remediation are also intensively highlighted. [Display omitted] •Parabens, emerging contaminants, have been found in various environmental matrices.•Photocatalysis is a promising, sustainable alternative to eliminate paraben preservatives.•Different side-chain structures have a difference in mechanism and catalytic efficiency.•Several types include ZnO-, ABO3- perovskite, Ag-, Bi-, WO3-based photocatalysts, are proposed.•Many types of reactive species, such as.●OH, ●O2−, ●OOH, etc., are responsible for photocatalysis
doi_str_mv	10.1016/j.chemosphere.2021.130163
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In light of these treatment techniques, advanced photocatalysis, which is emerging rapidly and widely as an economical, efficient, and environmentally-friendly technique, has received considerable attention. TiO2-based and non-TiO2-based photocatalysts play an essential role in parabens degradation. The effect of experimental parameters, such as the concentration of targeted parabens, concentration of photocatalyst, reaction time, and initial solution pH, even the presence of radical scavengers, are surveyed and compared from the literature. Some representative parabens such as methylparaben, propylparaben, and benzylparaben have been successfully studied the reaction pathways and their intermediates in their degradation process. As reported in the literature, the degradation of parabens involves the production of highly reactive species, mainly hydroxyl radicals. These reactive radicals would attack the paraben preservatives, break, and finally mineralize them into simpler inorganic and nontoxic molecules. Concluding perspectives on the challenges and opportunities for photocatalysis toward parabens remediation are also intensively highlighted. [Display omitted] •Parabens, emerging contaminants, have been found in various environmental matrices.•Photocatalysis is a promising, sustainable alternative to eliminate paraben preservatives.•Different side-chain structures have a difference in mechanism and catalytic efficiency.•Several types include ZnO-, ABO3- perovskite, Ag-, Bi-, WO3-based photocatalysts, are proposed.•Many types of reactive species, such as.●OH, ●O2−, ●OOH, etc., are responsible for photocatalysis</description><identifier>ISSN: 0045-6535</identifier><identifier>EISSN: 1879-1298</identifier><identifier>DOI: 10.1016/j.chemosphere.2021.130163</identifier><identifier>PMID: 33725624</identifier><language>eng</language><publisher>England: Elsevier Ltd</publisher><subject>Paraben preservatives ; Pharmaceuticals and personal care products ; Photocatalysis ; Photocatalyst</subject><ispartof>Chemosphere (Oxford), 2021-08, Vol.276, p.130163-130163, Article 130163</ispartof><rights>2021 Elsevier Ltd</rights><rights>Copyright © 2021 Elsevier Ltd. 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Treatment techniques, including chemical advanced oxidation, biological degradation, and physical adsorption processes, have been widely used to complete mineralization or to degrade parabens into less complicated byproducts. All kinds of processes were reviewed to give a completed picture of parabens removal. In light of these treatment techniques, advanced photocatalysis, which is emerging rapidly and widely as an economical, efficient, and environmentally-friendly technique, has received considerable attention. TiO2-based and non-TiO2-based photocatalysts play an essential role in parabens degradation. The effect of experimental parameters, such as the concentration of targeted parabens, concentration of photocatalyst, reaction time, and initial solution pH, even the presence of radical scavengers, are surveyed and compared from the literature. Some representative parabens such as methylparaben, propylparaben, and benzylparaben have been successfully studied the reaction pathways and their intermediates in their degradation process. As reported in the literature, the degradation of parabens involves the production of highly reactive species, mainly hydroxyl radicals. These reactive radicals would attack the paraben preservatives, break, and finally mineralize them into simpler inorganic and nontoxic molecules. Concluding perspectives on the challenges and opportunities for photocatalysis toward parabens remediation are also intensively highlighted. [Display omitted] •Parabens, emerging contaminants, have been found in various environmental matrices.•Photocatalysis is a promising, sustainable alternative to eliminate paraben preservatives.•Different side-chain structures have a difference in mechanism and catalytic efficiency.•Several types include ZnO-, ABO3- perovskite, Ag-, Bi-, WO3-based photocatalysts, are proposed.•Many types of reactive species, such as.●OH, ●O2−, ●OOH, etc., are responsible for photocatalysis</description><subject>Paraben preservatives</subject><subject>Pharmaceuticals and personal care products</subject><subject>Photocatalysis</subject><subject>Photocatalyst</subject><issn>0045-6535</issn><issn>1879-1298</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2021</creationdate><recordtype>article</recordtype><recordid>eNqNkFtrGzEQhUVpaNykf6Gob31ZV5eVtdu3YnqDQCEkz2JWmo1l1qutRnbJv6-C09LHPg3M-c5cDmPvpFhLITcf9mu_w0OiZYcZ10oouZa6CvoFW8nO9o1UffeSrYRoTbMx2lyy10R7ISpj-lfsUmurzEa1K7a_2yEP-JAhQIlp5mnkC2QYcOZLRsJ8qv0T0kd-ix7nUrvpoQrEYQ6cjlQgzjBMyGGpEtTLiJf0C3Lgyy6V5KHA9EiRrtnFCBPhm-d6xe6_fL7bfmtufnz9vv1003htbWnaALYNvtUQrFbah0GKzrYdmqHVehi6bgSLRqjR9saMfeiNGkKQWqugfB_0FXt_nlvP-XlEKu4QyeM0wYzpSE5VrxLGtLKi_Rn1ORFlHN2S4wHyo5PCPUXt9u6fqN1T1O4cdfW-fV5zHA4Y_jr_ZFuB7RnA-uwpYnbkI84eQ8zoiwsp_sea36EnmEM</recordid><startdate>20210801</startdate><enddate>20210801</enddate><creator>Nguyen, Van-Huy</creator><creator>Phan Thi, Lan-Anh</creator><creator>Chandana, P. 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Treatment techniques, including chemical advanced oxidation, biological degradation, and physical adsorption processes, have been widely used to complete mineralization or to degrade parabens into less complicated byproducts. All kinds of processes were reviewed to give a completed picture of parabens removal. In light of these treatment techniques, advanced photocatalysis, which is emerging rapidly and widely as an economical, efficient, and environmentally-friendly technique, has received considerable attention. TiO2-based and non-TiO2-based photocatalysts play an essential role in parabens degradation. The effect of experimental parameters, such as the concentration of targeted parabens, concentration of photocatalyst, reaction time, and initial solution pH, even the presence of radical scavengers, are surveyed and compared from the literature. Some representative parabens such as methylparaben, propylparaben, and benzylparaben have been successfully studied the reaction pathways and their intermediates in their degradation process. As reported in the literature, the degradation of parabens involves the production of highly reactive species, mainly hydroxyl radicals. These reactive radicals would attack the paraben preservatives, break, and finally mineralize them into simpler inorganic and nontoxic molecules. Concluding perspectives on the challenges and opportunities for photocatalysis toward parabens remediation are also intensively highlighted. [Display omitted] •Parabens, emerging contaminants, have been found in various environmental matrices.•Photocatalysis is a promising, sustainable alternative to eliminate paraben preservatives.•Different side-chain structures have a difference in mechanism and catalytic efficiency.•Several types include ZnO-, ABO3- perovskite, Ag-, Bi-, WO3-based photocatalysts, are proposed.•Many types of reactive species, such as.●OH, ●O2−, ●OOH, etc., are responsible for photocatalysis</abstract><cop>England</cop><pub>Elsevier Ltd</pub><pmid>33725624</pmid><doi>10.1016/j.chemosphere.2021.130163</doi><tpages>1</tpages><orcidid>https://orcid.org/0000-0002-2825-4649</orcidid></addata></record>
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subjects	Paraben preservatives Pharmaceuticals and personal care products Photocatalysis Photocatalyst
title	The degradation of paraben preservatives: Recent progress and sustainable approaches toward photocatalysis
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