Synthesis of core/shell Au/Ag nanorods embedded in functionalized silicate sol–gel matrix and their applications in electrochemical sensors

Synthesis of core/shell Au/Ag nanorods embedded in functionalized silicate sol–gel matrix and their applications in electrochemical sensors

[Display omitted] ► Synthesis of core/shell Au/Ag nanorods embedded in functionalized silicate sol–gel. ► Electrocatalysis at Au/Ag nanorods modified electrodes. ► Amperometric sensing of hydrogen peroxide and nitrite ions at physiological pH. ► Synergistic catalytic effect of core/shell Au/Ag nanor...

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Veröffentlicht in:Electrochimica acta 2013-01, Vol.88, p.51-58
Hauptverfasser: Jayabal, Subramaniam, Ramaraj, Ramasamy
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Sprache:eng
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Amperometric sensor
Bimetal nanorods
Chemistry
Electrical measurements
Electrocatalysis
Electrochemistry
Electrodes
Exact sciences and technology
General and physical chemistry
Gold
Gold nanorods
Nanorods
Nitrites
Sensors
Shells
Silver
Synergistic effect
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Ramaraj, Ramasamy
description [Display omitted] ► Synthesis of core/shell Au/Ag nanorods embedded in functionalized silicate sol–gel. ► Electrocatalysis at Au/Ag nanorods modified electrodes. ► Amperometric sensing of hydrogen peroxide and nitrite ions at physiological pH. ► Synergistic catalytic effect of core/shell Au/Ag nanorods highlighted. A facile synthetic method was developed for the preparation of bimetal core/shell Au/Ag nanorods embedded in amine functionalized silicate sol–gel matrix (Aucore/Agshell–TPDT NRs) in aqueous medium and its application toward the electrochemical detection of hydrogen peroxide (H2O2) and nitrite ions was demonstrated. The electrochemical characteristics of the Aucore/Agshell–TPDT NRs modified electrode were studied by cyclic voltammetry. The electrocatalysis and amperometric sensing of hydrogen peroxide and nitrite ions at physiological pH using the Aucore/Agshell–TPDT NRs modified electrode were investigated. The amperometric sensor showed enhanced electrocatalytic activity toward the detection of H2O2 and nitrite ions without the support of any mediator due to the synergetic catalytic effect of Au core and Ag shell. The amperometric current increased linearly with increasing the H2O2 concentration in the range from 100nM to 1.2μM and the lowest detection limit was estimated using the standard procedure as 40nM. The amperometric current increased linearly with increasing the nitrite ions concentration in the range from 100nM to 1μM and the lowest detection limit was estimated using the standard procedure as 60nM. The results of the study demonstrated that the GC/Aucore/Agshell–TPDT NRs modified electrode is simple to prepare that shows fast response, good stability and reproducible results and hence it is a promising material for the preparation of modified electrodes and electrochemical sensors.
doi_str_mv 10.1016/j.electacta.2012.10.065
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A facile synthetic method was developed for the preparation of bimetal core/shell Au/Ag nanorods embedded in amine functionalized silicate sol–gel matrix (Aucore/Agshell–TPDT NRs) in aqueous medium and its application toward the electrochemical detection of hydrogen peroxide (H2O2) and nitrite ions was demonstrated. The electrochemical characteristics of the Aucore/Agshell–TPDT NRs modified electrode were studied by cyclic voltammetry. The electrocatalysis and amperometric sensing of hydrogen peroxide and nitrite ions at physiological pH using the Aucore/Agshell–TPDT NRs modified electrode were investigated. The amperometric sensor showed enhanced electrocatalytic activity toward the detection of H2O2 and nitrite ions without the support of any mediator due to the synergetic catalytic effect of Au core and Ag shell. The amperometric current increased linearly with increasing the H2O2 concentration in the range from 100nM to 1.2μM and the lowest detection limit was estimated using the standard procedure as 40nM. The amperometric current increased linearly with increasing the nitrite ions concentration in the range from 100nM to 1μM and the lowest detection limit was estimated using the standard procedure as 60nM. 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A facile synthetic method was developed for the preparation of bimetal core/shell Au/Ag nanorods embedded in amine functionalized silicate sol–gel matrix (Aucore/Agshell–TPDT NRs) in aqueous medium and its application toward the electrochemical detection of hydrogen peroxide (H2O2) and nitrite ions was demonstrated. The electrochemical characteristics of the Aucore/Agshell–TPDT NRs modified electrode were studied by cyclic voltammetry. The electrocatalysis and amperometric sensing of hydrogen peroxide and nitrite ions at physiological pH using the Aucore/Agshell–TPDT NRs modified electrode were investigated. The amperometric sensor showed enhanced electrocatalytic activity toward the detection of H2O2 and nitrite ions without the support of any mediator due to the synergetic catalytic effect of Au core and Ag shell. The amperometric current increased linearly with increasing the H2O2 concentration in the range from 100nM to 1.2μM and the lowest detection limit was estimated using the standard procedure as 40nM. The amperometric current increased linearly with increasing the nitrite ions concentration in the range from 100nM to 1μM and the lowest detection limit was estimated using the standard procedure as 60nM. 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A facile synthetic method was developed for the preparation of bimetal core/shell Au/Ag nanorods embedded in amine functionalized silicate sol–gel matrix (Aucore/Agshell–TPDT NRs) in aqueous medium and its application toward the electrochemical detection of hydrogen peroxide (H2O2) and nitrite ions was demonstrated. The electrochemical characteristics of the Aucore/Agshell–TPDT NRs modified electrode were studied by cyclic voltammetry. The electrocatalysis and amperometric sensing of hydrogen peroxide and nitrite ions at physiological pH using the Aucore/Agshell–TPDT NRs modified electrode were investigated. The amperometric sensor showed enhanced electrocatalytic activity toward the detection of H2O2 and nitrite ions without the support of any mediator due to the synergetic catalytic effect of Au core and Ag shell. The amperometric current increased linearly with increasing the H2O2 concentration in the range from 100nM to 1.2μM and the lowest detection limit was estimated using the standard procedure as 40nM. The amperometric current increased linearly with increasing the nitrite ions concentration in the range from 100nM to 1μM and the lowest detection limit was estimated using the standard procedure as 60nM. The results of the study demonstrated that the GC/Aucore/Agshell–TPDT NRs modified electrode is simple to prepare that shows fast response, good stability and reproducible results and hence it is a promising material for the preparation of modified electrodes and electrochemical sensors.</abstract><cop>Kidlington</cop><pub>Elsevier Ltd</pub><doi>10.1016/j.electacta.2012.10.065</doi><tpages>8</tpages></addata></record>
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subjects Amperometric sensor
Bimetal nanorods
Chemistry
Electrical measurements
Electrocatalysis
Electrochemistry
Electrodes
Exact sciences and technology
General and physical chemistry
Gold
Gold nanorods
Nanorods
Nitrites
Sensors
Shells
Silver
Synergistic effect
title Synthesis of core/shell Au/Ag nanorods embedded in functionalized silicate sol–gel matrix and their applications in electrochemical sensors
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