Glassy carbon electrode modified with poly(methyl orange) as an electrochemical platform for the determination of 4-nitrophenol at nanomolar levels

In this study, poly(methyl orange) (PMO) was synthesized by electrodeposition onto a glassy carbon electrode (GCE), and the resulting structure was examined for the determination of 4-nitrophenol (4-NP). Cyclic voltammetry revealed that the PMO-modified GCE (PMO/GCE) exhibited excellent electrocatal...

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Published inCurrent applied physics Vol. 17; no. 8; pp. 1114 - 1119
Main Authors Giribabu, Krishnan, Haldorai, Yuvaraj, Rethinasabapathy, Muruganantham, Jang, Sung-Chan, Suresh, Ranganathan, Cho, Wan-Seob, Han, Young-Kyu, Roh, Changhyun, Huh, Yun Suk, Narayanan, Vengidusamy
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.08.2017
한국물리학회
Subjects
4-Nitrophenol
Differential pulse voltammetry
Electrochemical determination
Poly(methyl orange)
물리학
4-Nitrophenol
Electrochemical determination
Poly(methyl orange)
Differential pulse voltammetry
Online AccessGet full text
ISSN1567-1739
1878-1675
1567-1739
DOI10.1016/j.cap.2017.04.016

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Abstract In this study, poly(methyl orange) (PMO) was synthesized by electrodeposition onto a glassy carbon electrode (GCE), and the resulting structure was examined for the determination of 4-nitrophenol (4-NP). Cyclic voltammetry revealed that the PMO-modified GCE (PMO/GCE) exhibited excellent electrocatalytic activity for the oxidation of 4-NP in a 0.5-M phosphate buffer solution. In contrast, the bare GCE showed no oxidation peak. Interestingly, PMO/GCE exhibited an oxidation peak at approximate 0.93 V, and the background current was higher than that of the bare GCE. Furthermore, the developed electrochemical sensor exhibited a linear relationship with the 4-NP concentration from 600 nM to 10 μM, and the limit of detection was 170 nM (signal/noise = 3). The sensor demonstrated excellent selectivity, good stability, and reproducibility. It was applied to the determination of 4-NP in water samples by the standard addition method and gave recoveries of 99.2–100.9%. •Highly sensitive electrochemical platform for the determination of 4-nitrophenol.•Excellent analytical performance for 4-nitrophenol with a detection limit of 170 nM.•Poly(methyl orange) plays vital role in electrocatalytic activity.
AbstractList In this study, poly(methyl orange) (PMO) was synthesized by electrodeposition onto a glassy carbon electrode (GCE), and the resulting structure was examined for the determination of 4-nitrophenol (4-NP). Cyclic voltammetry revealed that the PMO-modified GCE (PMO/GCE) exhibited excellent electrocatalytic activity for the oxidation of 4-NP in a 0.5-M phosphate buffer solution. In contrast, the bare GCE showed no oxidation peak. Interestingly, PMO/GCE exhibited an oxidation peak at approximate 0.93 V, and the background current was higher than that of the bare GCE. Furthermore, the developed electrochemical sensor exhibited a linear relationship with the 4-NP concentration from 600 nM to 10 μM, and the limit of detection was 170 nM (signal/noise = 3). The sensor demonstrated excellent selectivity, good stability, and reproducibility. It was applied to the determination of 4-NP in water samples by the standard addition method and gave recoveries of 99.2–100.9%. •Highly sensitive electrochemical platform for the determination of 4-nitrophenol.•Excellent analytical performance for 4-nitrophenol with a detection limit of 170 nM.•Poly(methyl orange) plays vital role in electrocatalytic activity.
In this study, poly(methyl orange) (PMO) was synthesized by electrodeposition onto a glassy carbon electrode (GCE), and the resulting structure was examined for the determination of 4-nitrophenol (4-NP). Cyclic voltammetry revealed that the PMO-modified GCE (PMO/GCE) exhibited excellent electrocatalytic activity for the oxidation of 4-NP in a 0.5-M phosphate buffer solution. In contrast, the bare GCE showed no oxidation peak. Interestingly, PMO/GCE exhibited an oxidation peak at approximate 0.93 V, and the background current was higher than that of the bare GCE. Furthermore, the developed electrochemical sensor exhibited a linear relationship with the 4-NP concentration from 600 nM to 10 mM, and the limit of detection was 170 nM (signal/noise ¼ 3). The sensor demonstrated excellent selectivity, good stability, and reproducibility. It was applied to the determination of 4-NP in water samples by the standard addition method and gave recoveries of 99.2e100.9%. KCI Citation Count: 13
Author Rethinasabapathy, Muruganantham
Roh, Changhyun
Narayanan, Vengidusamy
Giribabu, Krishnan
Huh, Yun Suk
Cho, Wan-Seob
Suresh, Ranganathan
Haldorai, Yuvaraj
Jang, Sung-Chan
Han, Young-Kyu
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  givenname: Sung-Chan
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  organization: WCSL of Integrated Human Airway-on-a-chip, Department of Biological Engineering, Biohybrid Systems Research Center (BSRC), Inha University, 100, Inha-ro, Incheon 22212, Republic of Korea
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  givenname: Ranganathan
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  fullname: Suresh, Ranganathan
  organization: Department of Inorganic Chemistry, University of Madras, Guindy Maraimalai Campus, Chennai, 600025, India
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  givenname: Wan-Seob
  surname: Cho
  fullname: Cho, Wan-Seob
  organization: Lab of Toxicology, Department of Medicinal Biotechnology, College of Health Sciences, Dong-A University, 37, Nakdong-daero 550 Beon-gil, Busan, 49315, Republic of Korea
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  givenname: Young-Kyu
  surname: Han
  fullname: Han, Young-Kyu
  organization: Department of Energy and Materials Engineering, Dongguk University-Seoul, 30, Pildong-ro 1-gil, Seoul 04620, Republic of Korea
– sequence: 8
  givenname: Changhyun
  surname: Roh
  fullname: Roh, Changhyun
  email: chroh@kaeri.re.kr
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  givenname: Yun Suk
  orcidid: 0000-0003-1612-4473
  surname: Huh
  fullname: Huh, Yun Suk
  email: yunsuk.huh@inha.ac.kr
  organization: WCSL of Integrated Human Airway-on-a-chip, Department of Biological Engineering, Biohybrid Systems Research Center (BSRC), Inha University, 100, Inha-ro, Incheon 22212, Republic of Korea
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  givenname: Vengidusamy
  surname: Narayanan
  fullname: Narayanan, Vengidusamy
  email: vnnara@yahoo.co.in
  organization: Department of Inorganic Chemistry, University of Madras, Guindy Maraimalai Campus, Chennai, 600025, India
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Keywords 4-Nitrophenol
Electrochemical determination
Poly(methyl orange)
Differential pulse voltammetry
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Snippet In this study, poly(methyl orange) (PMO) was synthesized by electrodeposition onto a glassy carbon electrode (GCE), and the resulting structure was examined...
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SubjectTerms 4-Nitrophenol
Differential pulse voltammetry
Electrochemical determination
Poly(methyl orange)
물리학
Title Glassy carbon electrode modified with poly(methyl orange) as an electrochemical platform for the determination of 4-nitrophenol at nanomolar levels
URI https://dx.doi.org/10.1016/j.cap.2017.04.016
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