Colorimetric detection of iron ions (III) based on the highly sensitive plasmonic response of the N-acetyl-l-cysteine-stabilized silver nanoparticles

[Display omitted] •N-acetyl-l-cysteine-stabilized Ag nanoparticles are synthesized by a chemical reduction method.•The surface plasmon resonance intensity of the silver nanoparticles decreases with Fe3+ concentration.•The silver nanoparticles can be used for sensitive and selective detection of Fe3+...

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Published in:Analytica chimica acta 2015-06, Vol.879, p.118-125
Main Authors: Gao, Xiaohui, Lu, Yizhong, He, Shuijian, Li, Xiaokun, Chen, Wei
Format: Article
Language:English
Subjects:
Acetylcysteine - chemistry
Cations - analysis
Chemical sensor
Colorimetric sensing
Colorimetry - methods
Iron - analysis
Iron ions
Limit of Detection
Metal Nanoparticles - chemistry
Metal Nanoparticles - ultrastructure
N-acetyl-l-cysteine
Silver - chemistry
Silver nanoparticles
Surface plasmon resonance
Surface Plasmon Resonance - methods
Water - analysis
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cited_by cdi_FETCH-LOGICAL-c489t-dba9f78db1e5417493e50d79f94f79203b4f1836afc7f5b1114b574aefc55e213
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container_title Analytica chimica acta
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creator Gao, Xiaohui
Lu, Yizhong
He, Shuijian
Li, Xiaokun
Chen, Wei
description [Display omitted] •N-acetyl-l-cysteine-stabilized Ag nanoparticles are synthesized by a chemical reduction method.•The surface plasmon resonance intensity of the silver nanoparticles decreases with Fe3+ concentration.•The silver nanoparticles can be used for sensitive and selective detection of Fe3+ ions in water.•A new detection mechanism of oxidation–reduction reaction between Ag NPs and Fe3+ ions is proposed. We report here a facile colorimetric sensor based on the N-acetyl-l-cysteine (NALC)-stabilized Ag nanoparticles (NALC–Ag NPs) for detection of Fe3+ ions in aqueous solution. The Ag NPs with an average diameter of 6.55±1.0nm are successfully synthesized through a simple method using sodium borohydride as reducing agent and N-acetyl-l-cysteine as protecting ligand. The synthesized silver nanoparticles show a strong surface plasmon resonance (SPR) around 400nm and the SPR intensity decreases with the increasing of Fe3+ concentration in aqueous solution. Based on the linear relationship between SPR intensity and concentration of Fe3+ ions, the as-synthesized water-soluble silver nanoparticles can be used for the sensitive and selective detection of Fe3+ ions in water with a linear range from 80nM to 80μM and a detection limit of 80nM. On the basis of the experimental results, a new detection mechanism of oxidation–reduction reaction between Ag NPs and Fe3+ ions is proposed, which is different from previously reported mechanisms. Moreover, the NALC–Ag NPs could be applied to the detection of Fe3+ ions in real environmental water samples.
doi_str_mv 10.1016/j.aca.2015.04.002
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We report here a facile colorimetric sensor based on the N-acetyl-l-cysteine (NALC)-stabilized Ag nanoparticles (NALC–Ag NPs) for detection of Fe3+ ions in aqueous solution. The Ag NPs with an average diameter of 6.55±1.0nm are successfully synthesized through a simple method using sodium borohydride as reducing agent and N-acetyl-l-cysteine as protecting ligand. The synthesized silver nanoparticles show a strong surface plasmon resonance (SPR) around 400nm and the SPR intensity decreases with the increasing of Fe3+ concentration in aqueous solution. Based on the linear relationship between SPR intensity and concentration of Fe3+ ions, the as-synthesized water-soluble silver nanoparticles can be used for the sensitive and selective detection of Fe3+ ions in water with a linear range from 80nM to 80μM and a detection limit of 80nM. On the basis of the experimental results, a new detection mechanism of oxidation–reduction reaction between Ag NPs and Fe3+ ions is proposed, which is different from previously reported mechanisms. 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We report here a facile colorimetric sensor based on the N-acetyl-l-cysteine (NALC)-stabilized Ag nanoparticles (NALC–Ag NPs) for detection of Fe3+ ions in aqueous solution. The Ag NPs with an average diameter of 6.55±1.0nm are successfully synthesized through a simple method using sodium borohydride as reducing agent and N-acetyl-l-cysteine as protecting ligand. The synthesized silver nanoparticles show a strong surface plasmon resonance (SPR) around 400nm and the SPR intensity decreases with the increasing of Fe3+ concentration in aqueous solution. Based on the linear relationship between SPR intensity and concentration of Fe3+ ions, the as-synthesized water-soluble silver nanoparticles can be used for the sensitive and selective detection of Fe3+ ions in water with a linear range from 80nM to 80μM and a detection limit of 80nM. On the basis of the experimental results, a new detection mechanism of oxidation–reduction reaction between Ag NPs and Fe3+ ions is proposed, which is different from previously reported mechanisms. 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We report here a facile colorimetric sensor based on the N-acetyl-l-cysteine (NALC)-stabilized Ag nanoparticles (NALC–Ag NPs) for detection of Fe3+ ions in aqueous solution. The Ag NPs with an average diameter of 6.55±1.0nm are successfully synthesized through a simple method using sodium borohydride as reducing agent and N-acetyl-l-cysteine as protecting ligand. The synthesized silver nanoparticles show a strong surface plasmon resonance (SPR) around 400nm and the SPR intensity decreases with the increasing of Fe3+ concentration in aqueous solution. Based on the linear relationship between SPR intensity and concentration of Fe3+ ions, the as-synthesized water-soluble silver nanoparticles can be used for the sensitive and selective detection of Fe3+ ions in water with a linear range from 80nM to 80μM and a detection limit of 80nM. 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subjects Acetylcysteine - chemistry
Cations - analysis
Chemical sensor
Colorimetric sensing
Colorimetry - methods
Iron - analysis
Iron ions
Limit of Detection
Metal Nanoparticles - chemistry
Metal Nanoparticles - ultrastructure
N-acetyl-l-cysteine
Silver - chemistry
Silver nanoparticles
Surface plasmon resonance
Surface Plasmon Resonance - methods
Water - analysis
title Colorimetric detection of iron ions (III) based on the highly sensitive plasmonic response of the N-acetyl-l-cysteine-stabilized silver nanoparticles
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