Electrocatalytic oxidation of dopamine based on non-covalent functionalization of manganese tetraphenylporphyrin/reduced graphene oxide nanocomposite

[Display omitted] In the present work, a reduced graphene oxide (RGO) supported manganese tetraphenylporphyrin (Mn-TPP) nanocomposite was electrochemically synthesized and used for the highly selective and sensitive detection of dopamine (DA). The nuclear magnetic resonance, scanning electron micros...

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Published in:	Journal of colloid and interface science Vol. 468; pp. 120 - 127
Main Authors:	Sakthinathan, Subramanian, Lee, Hsin Fang, Chen, Shen-Ming, Tamizhdurai, P.
Format:	Journal Article
Language:	English
Published:	United States Elsevier Inc 15-04-2016
Subjects:	Amperometry Catalysis Charging Dopamine Dopamine - chemistry Electrocatalysis Electrochemical sensor Electrochemical Techniques Electrochemistry Electrodes Graphene Graphite - chemistry Humans Manganese Manganese tetraphenylporphyrin Metalloporphyrins - chemistry Nanocomposites Nanocomposites - chemistry Oxidation-Reduction Oxides Oxides - chemistry Particle Size Reduced graphene oxide Surface Properties Voltammetry Electrocatalysis Dopamine Manganese tetraphenylporphyrin Electrochemistry Amperometry Reduced graphene oxide Electrochemical sensor
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Abstract	[Display omitted] In the present work, a reduced graphene oxide (RGO) supported manganese tetraphenylporphyrin (Mn-TPP) nanocomposite was electrochemically synthesized and used for the highly selective and sensitive detection of dopamine (DA). The nuclear magnetic resonance, scanning electron microscopy and elemental analysis were confirmed the successful formation of RGO/Mn-TPP nanocomposite. The prepared RGO/Mn-TPP nanocomposite modified electrode exhibited an enhanced electrochemical response to DA with less oxidation potential and enhanced response current. The electrochemical studies revealed that the oxidation of the DA at the composite electrode is a surface controlled process. The cyclic voltammetry, differential pulse voltammetry and amperometry methods were enable to detect DA. The working linear range of the electrode was observed from 0.3 to 188.8μM, limit of detection was 8nM and the sensitivity was 2.606μAμM−1cm−2. Here, the positively charged DA and negatively charged porphyrin modified RGO can accelerate the electrocatalysis of DA via electrostatic attraction, while the negatively charged ascorbic acid (AA) repulsed by the negatively charged electrode surface which supported for good selectivity. The good recovery results obtained for the determination of DA present in DA injection samples and human pathological sample further revealed the good practicality of RGO/Mn-TPP nanocomposite film modified electrode.
AbstractList	In the present work, a reduced graphene oxide (RGO) supported manganese tetraphenylporphyrin (Mn-TPP) nanocomposite was electrochemically synthesized and used for the highly selective and sensitive detection of dopamine (DA). The nuclear magnetic resonance, scanning electron microscopy and elemental analysis were confirmed the successful formation of RGO/Mn-TPP nanocomposite. The prepared RGO/Mn-TPP nanocomposite modified electrode exhibited an enhanced electrochemical response to DA with less oxidation potential and enhanced response current. The electrochemical studies revealed that the oxidation of the DA at the composite electrode is a surface controlled process. The cyclic voltammetry, differential pulse voltammetry and amperometry methods were enable to detect DA. The working linear range of the electrode was observed from 0.3 to 188.8 mu M, limit of detection was 8 nM and the sensitivity was 2.606 mu A mu M super(-1) cm super(-2). Here, the positively charged DA and negatively charged porphyrin modified RGO can accelerate the electrocatalysis of DA via electrostatic attraction, while the negatively charged ascorbic acid (AA) repulsed by the negatively charged electrode surface which supported for good selectivity. The good recovery results obtained for the determination of DA present in DA injection samples and human pathological sample further revealed the good practicality of RGO/Mn-TPP nanocomposite film modified electrode. In the present work, a reduced graphene oxide (RGO) supported manganese tetraphenylporphyrin (Mn-TPP) nanocomposite was electrochemically synthesized and used for the highly selective and sensitive detection of dopamine (DA). The nuclear magnetic resonance, scanning electron microscopy and elemental analysis were confirmed the successful formation of RGO/Mn-TPP nanocomposite. The prepared RGO/Mn-TPP nanocomposite modified electrode exhibited an enhanced electrochemical response to DA with less oxidation potential and enhanced response current. The electrochemical studies revealed that the oxidation of the DA at the composite electrode is a surface controlled process. The cyclic voltammetry, differential pulse voltammetry and amperometry methods were enable to detect DA. The working linear range of the electrode was observed from 0.3 to 188.8 μM, limit of detection was 8 nM and the sensitivity was 2.606 μA μM(-1) cm(-2). Here, the positively charged DA and negatively charged porphyrin modified RGO can accelerate the electrocatalysis of DA via electrostatic attraction, while the negatively charged ascorbic acid (AA) repulsed by the negatively charged electrode surface which supported for good selectivity. The good recovery results obtained for the determination of DA present in DA injection samples and human pathological sample further revealed the good practicality of RGO/Mn-TPP nanocomposite film modified electrode. [Display omitted] In the present work, a reduced graphene oxide (RGO) supported manganese tetraphenylporphyrin (Mn-TPP) nanocomposite was electrochemically synthesized and used for the highly selective and sensitive detection of dopamine (DA). The nuclear magnetic resonance, scanning electron microscopy and elemental analysis were confirmed the successful formation of RGO/Mn-TPP nanocomposite. The prepared RGO/Mn-TPP nanocomposite modified electrode exhibited an enhanced electrochemical response to DA with less oxidation potential and enhanced response current. The electrochemical studies revealed that the oxidation of the DA at the composite electrode is a surface controlled process. The cyclic voltammetry, differential pulse voltammetry and amperometry methods were enable to detect DA. The working linear range of the electrode was observed from 0.3 to 188.8μM, limit of detection was 8nM and the sensitivity was 2.606μAμM−1cm−2. Here, the positively charged DA and negatively charged porphyrin modified RGO can accelerate the electrocatalysis of DA via electrostatic attraction, while the negatively charged ascorbic acid (AA) repulsed by the negatively charged electrode surface which supported for good selectivity. The good recovery results obtained for the determination of DA present in DA injection samples and human pathological sample further revealed the good practicality of RGO/Mn-TPP nanocomposite film modified electrode.
Author	Tamizhdurai, P. Sakthinathan, Subramanian Lee, Hsin Fang Chen, Shen-Ming
Author_xml	– sequence: 1 givenname: Subramanian surname: Sakthinathan fullname: Sakthinathan, Subramanian organization: Electroanalysis and Bioelectrochemistry Lab, Department of Chemical Engineering and Biotechnology, National Taipei University of Technology, No. 1, Section 3, Chung-Hsiao East Road, Taipei 106, Taiwan, ROC – sequence: 2 givenname: Hsin Fang surname: Lee fullname: Lee, Hsin Fang organization: Electroanalysis and Bioelectrochemistry Lab, Department of Chemical Engineering and Biotechnology, National Taipei University of Technology, No. 1, Section 3, Chung-Hsiao East Road, Taipei 106, Taiwan, ROC – sequence: 3 givenname: Shen-Ming surname: Chen fullname: Chen, Shen-Ming email: smchen78@ms15.hinet.net organization: Electroanalysis and Bioelectrochemistry Lab, Department of Chemical Engineering and Biotechnology, National Taipei University of Technology, No. 1, Section 3, Chung-Hsiao East Road, Taipei 106, Taiwan, ROC – sequence: 4 givenname: P. surname: Tamizhdurai fullname: Tamizhdurai, P. organization: National Centre for Catalysis Research, Indian Institute of Technology, Chennai 600036, India
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Copyright	2016 Elsevier Inc. Copyright © 2016 Elsevier Inc. All rights reserved.
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Keywords	Electrocatalysis Dopamine Manganese tetraphenylporphyrin Electrochemistry Amperometry Reduced graphene oxide Electrochemical sensor
Language	English
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Snippet	[Display omitted] In the present work, a reduced graphene oxide (RGO) supported manganese tetraphenylporphyrin (Mn-TPP) nanocomposite was electrochemically... In the present work, a reduced graphene oxide (RGO) supported manganese tetraphenylporphyrin (Mn-TPP) nanocomposite was electrochemically synthesized and used...
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SubjectTerms	Amperometry Catalysis Charging Dopamine Dopamine - chemistry Electrocatalysis Electrochemical sensor Electrochemical Techniques Electrochemistry Electrodes Graphene Graphite - chemistry Humans Manganese Manganese tetraphenylporphyrin Metalloporphyrins - chemistry Nanocomposites Nanocomposites - chemistry Oxidation-Reduction Oxides Oxides - chemistry Particle Size Reduced graphene oxide Surface Properties Voltammetry
Title	Electrocatalytic oxidation of dopamine based on non-covalent functionalization of manganese tetraphenylporphyrin/reduced graphene oxide nanocomposite
URI	https://dx.doi.org/10.1016/j.jcis.2016.01.014 https://www.ncbi.nlm.nih.gov/pubmed/26835582 https://search.proquest.com/docview/1765332330 https://search.proquest.com/docview/1816081050
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