Electrochemical determination of tryptophan using a glassy carbon electrode modified with flower-like structured nanocomposite consisting of reduced graphene oxide and SnO2

•Hydrothermal synthesis of rGO/SnO2 flower-like nanocomposite.•Excellent electrocatalytic activity towards the oxidation of tryptophan.•The low detection limit for tryptophan sensing was identified as 0.04μM (S/N=3).•The sensor showed a high sensitivity of 37.3μAμM−1cm−2.•Excellent selectivity with...

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Published inSensors and actuators. B, Chemical Vol. 239; pp. 1221 - 1230
Main Authors Haldorai, Yuvaraj, Yeon, Sun-Hwa, Huh, Yun Suk, Han, Young-Kyu
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.02.2017
Subjects
Amino acids
Biosensor
Electrodes
Glassy carbon
Graphene
Non-enzymatic
Reduced graphene oxide
Sensors
Tin dioxide
Tin oxide
Tryptophan
Voltammetry
Tryptophan
Non-enzymatic
Reduced graphene oxide
Tin oxide
Biosensor
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Abstract •Hydrothermal synthesis of rGO/SnO2 flower-like nanocomposite.•Excellent electrocatalytic activity towards the oxidation of tryptophan.•The low detection limit for tryptophan sensing was identified as 0.04μM (S/N=3).•The sensor showed a high sensitivity of 37.3μAμM−1cm−2.•Excellent selectivity with good stability and reproducibility of the electrode. A nanocomposite consisting of reduced graphene oxide (rGO) decorated with tin oxide (SnO2) nanoparticles was fabricated using a hydrothermal route. Cyclic voltammetry showed that a glassy carbon electrode (GCE) modified with the rGO/SnO2 composite exhibited an excellent electrocatalytic activity towards the oxidation of amino acid tryptophan (Trp) in 0.1M phosphate buffer solution (pH=7). The combined use of rGO and SnO2 results in higher current response and lower oxidation potential (0.76V) compared to those of a bare GCE, SnO2/GCE, and rGO/GCE. Differential pulse voltammetry study showed a linear relationship to the Trp concentration of 1–100μM. The low detection limit of Trp was identified at 0.04μM (S/N=3) with sensitivity of 37.3μAμM−1cm−2. The sensor demonstrated an excellent selectivity, good stability, and reproducibility. The sensor was applied to the determination of Trp in spiked milk and amino acid injection samples by the standard addition method and gave recoveries of 98.0–101.3% and 98.1–102.5%, respectively.
AbstractList •Hydrothermal synthesis of rGO/SnO2 flower-like nanocomposite.•Excellent electrocatalytic activity towards the oxidation of tryptophan.•The low detection limit for tryptophan sensing was identified as 0.04μM (S/N=3).•The sensor showed a high sensitivity of 37.3μAμM−1cm−2.•Excellent selectivity with good stability and reproducibility of the electrode. A nanocomposite consisting of reduced graphene oxide (rGO) decorated with tin oxide (SnO2) nanoparticles was fabricated using a hydrothermal route. Cyclic voltammetry showed that a glassy carbon electrode (GCE) modified with the rGO/SnO2 composite exhibited an excellent electrocatalytic activity towards the oxidation of amino acid tryptophan (Trp) in 0.1M phosphate buffer solution (pH=7). The combined use of rGO and SnO2 results in higher current response and lower oxidation potential (0.76V) compared to those of a bare GCE, SnO2/GCE, and rGO/GCE. Differential pulse voltammetry study showed a linear relationship to the Trp concentration of 1–100μM. The low detection limit of Trp was identified at 0.04μM (S/N=3) with sensitivity of 37.3μAμM−1cm−2. The sensor demonstrated an excellent selectivity, good stability, and reproducibility. The sensor was applied to the determination of Trp in spiked milk and amino acid injection samples by the standard addition method and gave recoveries of 98.0–101.3% and 98.1–102.5%, respectively.
A nanocomposite consisting of reduced graphene oxide (rGO) decorated with tin oxide (SnO2) nanoparticles was fabricated using a hydrothermal route. Cyclic voltammetry showed that a glassy carbon electrode (GCE) modified with the rGO/SnO2 composite exhibited an excellent electrocatalytic activity towards the oxidation of amino acid tryptophan (Trp) in 0.1M phosphate buffer solution (pH=7). The combined use of rGO and SnO2 results in higher current response and lower oxidation potential (0.76V) compared to those of a bare GCE, SnO2/GCE, and rGO/GCE. Differential pulse voltammetry study showed a linear relationship to the Trp concentration of 1-100 mu M. The low detection limit of Trp was identified at 0.04 mu M (S/N=3) with sensitivity of 37.3 mu A mu M-1 cm-2. The sensor demonstrated an excellent selectivity, good stability, and reproducibility. The sensor was applied to the determination of Trp in spiked milk and amino acid injection samples by the standard addition method and gave recoveries of 98.0-101.3% and 98.1-102.5%, respectively.
Author Haldorai, Yuvaraj
Han, Young-Kyu
Yeon, Sun-Hwa
Huh, Yun Suk
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Keywords Tryptophan
Non-enzymatic
Reduced graphene oxide
Tin oxide
Biosensor
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SSID ssj0004360
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Snippet •Hydrothermal synthesis of rGO/SnO2 flower-like nanocomposite.•Excellent electrocatalytic activity towards the oxidation of tryptophan.•The low detection limit...
A nanocomposite consisting of reduced graphene oxide (rGO) decorated with tin oxide (SnO2) nanoparticles was fabricated using a hydrothermal route. Cyclic...
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elsevier
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StartPage 1221
SubjectTerms Amino acids
Biosensor
Electrodes
Glassy carbon
Graphene
Non-enzymatic
Reduced graphene oxide
Sensors
Tin dioxide
Tin oxide
Tryptophan
Voltammetry
Title Electrochemical determination of tryptophan using a glassy carbon electrode modified with flower-like structured nanocomposite consisting of reduced graphene oxide and SnO2
URI https://dx.doi.org/10.1016/j.snb.2016.09.119
https://search.proquest.com/docview/1864558697
Volume 239
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