Photocatalytic degradation of chlorophenols using star block copolymers: Removal efficiency, by-products and toxicity of catalyst

Seung Gun Chung; Yoon Seok Chang; Jae Woo Choi; Kyung Youl Baek; Seok Won Hong; Seong Taek Yun; Sang Hyup Lee

doi:10.1016/j.cej.2012.11.070

Photocatalytic degradation of chlorophenols using star block copolymers: Removal efficiency, by-products and toxicity of catalyst

Seung Gun Chung, Yoon Seok Chang, Jae Woo Choi, Kyung Youl Baek, Seok Won Hong, Seong Taek Yun, Sang Hyup Lee

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

36 Citations (Scopus)

Abstract

This study investigated the photocatalytic degradation of chlorophenols using two different types of porphyrin core star block copolymers (P-PSD and P-PD) with irradiation using visible light. Both P-PSD and P-PD catalysts show similar tendencies in the degradation of chlorophenols. Pentachlorophenol degraded faster than other chlorinated phenols (pentachlorophenol. >. 2,4,6-trichlorophenol. >. 2,4-dichlorophenol). The removal rate of chlorophenols using P-PSD was higher than the removal rate using P-PD, a difference which could be attributed to the hydrophobicity of P-PSD. The degradation intermediates and by-products of the chlorophenols were also identified. The analysis results revealed that the degradation of highly-chlorinated phenols was more rapid than the degradation of the less-chlorinated phenols, as confirmed by residual chlorinated compound and chloride ions that were released. The newly synthesized P-PSD catalyst is non-toxic to bacteria. For these reasons, the process of photocatalytic degradation using porphyrin core star block copolymers has potential advantages for the degradation of dissolved chlorophenol pollutants in water.

Original language	English
Pages (from-to)	921-928
Number of pages	8
Journal	Chemical Engineering Journal
Volume	215-216
DOIs	https://doi.org/10.1016/j.cej.2012.11.070
Publication status	Published - 2013 Jan 5

Bibliographical note

Funding Information:
The authors acknowledge the grant for this study from the Korea Ministry of Environment as “Converging Technology Project” (2012000600001), the National Research Foundation of Korea Grant funded by the Korean Government (MEST 2012, University-Institute cooperation program) and the Korea Institute of Science and Technology (KIST) institutional program (2E22853).

Keywords

Chlorophenols
Hydrophobicity
Photocatalytic degradation
Porphyrin
Star block copolymer
Toxicity

ASJC Scopus subject areas

General Chemistry
Environmental Chemistry
General Chemical Engineering
Industrial and Manufacturing Engineering

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10.1016/j.cej.2012.11.070

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title = "Photocatalytic degradation of chlorophenols using star block copolymers: Removal efficiency, by-products and toxicity of catalyst",

abstract = "This study investigated the photocatalytic degradation of chlorophenols using two different types of porphyrin core star block copolymers (P-PSD and P-PD) with irradiation using visible light. Both P-PSD and P-PD catalysts show similar tendencies in the degradation of chlorophenols. Pentachlorophenol degraded faster than other chlorinated phenols (pentachlorophenol. >. 2,4,6-trichlorophenol. >. 2,4-dichlorophenol). The removal rate of chlorophenols using P-PSD was higher than the removal rate using P-PD, a difference which could be attributed to the hydrophobicity of P-PSD. The degradation intermediates and by-products of the chlorophenols were also identified. The analysis results revealed that the degradation of highly-chlorinated phenols was more rapid than the degradation of the less-chlorinated phenols, as confirmed by residual chlorinated compound and chloride ions that were released. The newly synthesized P-PSD catalyst is non-toxic to bacteria. For these reasons, the process of photocatalytic degradation using porphyrin core star block copolymers has potential advantages for the degradation of dissolved chlorophenol pollutants in water.",

keywords = "Chlorophenols, Hydrophobicity, Photocatalytic degradation, Porphyrin, Star block copolymer, Toxicity",

author = "Chung, {Seung Gun} and Chang, {Yoon Seok} and Choi, {Jae Woo} and Baek, {Kyung Youl} and Hong, {Seok Won} and Yun, {Seong Taek} and Lee, {Sang Hyup}",

note = "Funding Information: The authors acknowledge the grant for this study from the Korea Ministry of Environment as “Converging Technology Project” (2012000600001), the National Research Foundation of Korea Grant funded by the Korean Government (MEST 2012, University-Institute cooperation program) and the Korea Institute of Science and Technology (KIST) institutional program (2E22853). ",

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doi = "10.1016/j.cej.2012.11.070",

language = "English",

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T1 - Photocatalytic degradation of chlorophenols using star block copolymers

T2 - Removal efficiency, by-products and toxicity of catalyst

AU - Chung, Seung Gun

AU - Chang, Yoon Seok

AU - Choi, Jae Woo

AU - Baek, Kyung Youl

AU - Hong, Seok Won

AU - Yun, Seong Taek

AU - Lee, Sang Hyup

N1 - Funding Information: The authors acknowledge the grant for this study from the Korea Ministry of Environment as “Converging Technology Project” (2012000600001), the National Research Foundation of Korea Grant funded by the Korean Government (MEST 2012, University-Institute cooperation program) and the Korea Institute of Science and Technology (KIST) institutional program (2E22853).

PY - 2013/1/5

Y1 - 2013/1/5

N2 - This study investigated the photocatalytic degradation of chlorophenols using two different types of porphyrin core star block copolymers (P-PSD and P-PD) with irradiation using visible light. Both P-PSD and P-PD catalysts show similar tendencies in the degradation of chlorophenols. Pentachlorophenol degraded faster than other chlorinated phenols (pentachlorophenol. >. 2,4,6-trichlorophenol. >. 2,4-dichlorophenol). The removal rate of chlorophenols using P-PSD was higher than the removal rate using P-PD, a difference which could be attributed to the hydrophobicity of P-PSD. The degradation intermediates and by-products of the chlorophenols were also identified. The analysis results revealed that the degradation of highly-chlorinated phenols was more rapid than the degradation of the less-chlorinated phenols, as confirmed by residual chlorinated compound and chloride ions that were released. The newly synthesized P-PSD catalyst is non-toxic to bacteria. For these reasons, the process of photocatalytic degradation using porphyrin core star block copolymers has potential advantages for the degradation of dissolved chlorophenol pollutants in water.

AB - This study investigated the photocatalytic degradation of chlorophenols using two different types of porphyrin core star block copolymers (P-PSD and P-PD) with irradiation using visible light. Both P-PSD and P-PD catalysts show similar tendencies in the degradation of chlorophenols. Pentachlorophenol degraded faster than other chlorinated phenols (pentachlorophenol. >. 2,4,6-trichlorophenol. >. 2,4-dichlorophenol). The removal rate of chlorophenols using P-PSD was higher than the removal rate using P-PD, a difference which could be attributed to the hydrophobicity of P-PSD. The degradation intermediates and by-products of the chlorophenols were also identified. The analysis results revealed that the degradation of highly-chlorinated phenols was more rapid than the degradation of the less-chlorinated phenols, as confirmed by residual chlorinated compound and chloride ions that were released. The newly synthesized P-PSD catalyst is non-toxic to bacteria. For these reasons, the process of photocatalytic degradation using porphyrin core star block copolymers has potential advantages for the degradation of dissolved chlorophenol pollutants in water.

KW - Chlorophenols

KW - Hydrophobicity

KW - Photocatalytic degradation

KW - Porphyrin

KW - Star block copolymer

KW - Toxicity

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SN - 1385-8947

VL - 215-216

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JO - Chemical Engineering Journal

JF - Chemical Engineering Journal

ER -

Photocatalytic degradation of chlorophenols using star block copolymers: Removal efficiency, by-products and toxicity of catalyst

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

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