An ultrasensitive electrochemiluminescent sensor based on a pencil graphite electrode modified with CdS nanorods for detection of chlorogenic acid in honeysuckle

In this paper, a novel and ultrasensitive electrochemiluminescent sensor employing a solvothermal‐synthesized CdS nanorod‐modified pencil graphite electrode (CdS/PGE) for the determination of chlorogenic acid (CA) is fabricated. In the first step, the PGE surface is modified using CdS nanorods. In t...

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Bibliographic Details
Published in:Luminescence (Chichester, England) England), 2017-08, Vol.32 (5), p.806-811
Main Authors: Zheng, Ruijuan, Zhong, Jianhai, Zhao, Chenhao, Lang, Xiaoling, Hu, Zhibiao, Luo, Jiangshui
Format: Article
Language:English
Subjects:
Buffers
Cadmium Compounds - chemistry
Calibration
CdS nanorods
Chlorogenic acid
Chlorogenic Acid - analysis
Correlation
Detection
Electrochemiluminescence
electrochemiluminescent
Electrochemistry - instrumentation
Electrochemistry - methods
Electrodes
Ethylenediamines - chemistry
Flowers - chemistry
Graphite
Graphite - chemistry
Hydrogen-Ion Concentration
Lonicera - chemistry
Luminescent Measurements - instrumentation
Luminescent Measurements - methods
Methods
Nanorods
Nanotubes - chemistry
Nitrates - chemistry
pencil graphite electrode
Potassium
Potassium Compounds - chemistry
Potassium persulfate
Quenching
Reproducibility
Reproducibility of Results
Scanning
Sensors
Stability
Sulfates - chemistry
Sulfides - chemistry
X-Ray Diffraction
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Summary:In this paper, a novel and ultrasensitive electrochemiluminescent sensor employing a solvothermal‐synthesized CdS nanorod‐modified pencil graphite electrode (CdS/PGE) for the determination of chlorogenic acid (CA) is fabricated. In the first step, the PGE surface is modified using CdS nanorods. In the next step, the developed electrode is used to detect CA using a electrochemiluminescent (ECL) technique, in which potassium persulfate (K2S2O8) served as a co‐reactant. The possible ECL mechanism is investigated, and the influences of pH and cyclic voltammetric scanning rate on the signal response are studied. The ECL intensity decreases quantitatively in relation to the concentration of the target molecule. Under optimized conditions, the linear correlation between the quenched ECL intensity and the logarithm of CA concentration is observed in the range from 2 × 10−9 to 8 × 10−7 mol L−1 with a limit of detection of 1 × 10−9 mol L−1. This proposed method is applied to the analysis of CA in honeysuckle flower, giving recoveries of 99‐107%. The experimental results demonstrate that this ECL sensor shows good stability and reproducibility.
ISSN:1522-7235
1522-7243
DOI:10.1002/bio.3255