Laser-induced graphene/gold nanoparticle hybrid sensor for enhanced electrochemical detection of paracetamol

Wenbang Yu; Xiaotian Xu; Tian Cao; Zihan Wei; Jing Tang; Min Zhang

doi:10.1039/d4ay01627k

Laser-induced graphene/gold nanoparticle hybrid sensor for enhanced electrochemical detection of paracetamol

Wenbang Yu^*
, Xiaotian Xu
, Tian Cao
, Zihan Wei
, Jing Tang^*
, Min Zhang^*

^*此作品的通讯作者

化学与分子工程学院

Jinhua University of Vocational Technology
East China Normal University
Ltd.
Fudan University

科研成果: 期刊稿件 › 文章 › 同行评审

7 引用（Scopus）

摘要

This research presents a highly sensitive and selective electrochemical sensor for detecting paracetamol. The sensor is created using laser direct-writing on a flexible PI substrate to form LIG electrodes. Gold nanoparticles (AuNPs) are then synthesized on the working electrode through secondary laser reduction, resulting in an AuNPs/LIG composite. This combination enhances the sensor's electrochemical activity, electron transfer rate, and adsorption capacity. The sensor exhibits a linear response to paracetamol concentrations with a detection limit of 0.086 μM. Testing on Tylenol tablets and tap water showed good recovery rates. The sensor displays strong anti-interference, reproducibility, and stability, making it a promising tool for effective paracetamol monitoring in real-world situations.

源语言	英语
页（从-至）	7527-7533
页数	7
期刊	Analytical Methods
卷	16
期	44
DOI	https://doi.org/10.1039/d4ay01627k
出版状态	已出版 - 1 10月 2024

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title = "Laser-induced graphene/gold nanoparticle hybrid sensor for enhanced electrochemical detection of paracetamol",

abstract = "This research presents a highly sensitive and selective electrochemical sensor for detecting paracetamol. The sensor is created using laser direct-writing on a flexible PI substrate to form LIG electrodes. Gold nanoparticles (AuNPs) are then synthesized on the working electrode through secondary laser reduction, resulting in an AuNPs/LIG composite. This combination enhances the sensor's electrochemical activity, electron transfer rate, and adsorption capacity. The sensor exhibits a linear response to paracetamol concentrations with a detection limit of 0.086 μM. Testing on Tylenol tablets and tap water showed good recovery rates. The sensor displays strong anti-interference, reproducibility, and stability, making it a promising tool for effective paracetamol monitoring in real-world situations.",

author = "Wenbang Yu and Xiaotian Xu and Tian Cao and Zihan Wei and Jing Tang and Min Zhang",

note = "Publisher Copyright: {\textcopyright} 2024 The Royal Society of Chemistry.",

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doi = "10.1039/d4ay01627k",

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TY - JOUR

T1 - Laser-induced graphene/gold nanoparticle hybrid sensor for enhanced electrochemical detection of paracetamol

AU - Yu, Wenbang

AU - Xu, Xiaotian

AU - Cao, Tian

AU - Wei, Zihan

AU - Tang, Jing

AU - Zhang, Min

PY - 2024/10/1

Y1 - 2024/10/1

N2 - This research presents a highly sensitive and selective electrochemical sensor for detecting paracetamol. The sensor is created using laser direct-writing on a flexible PI substrate to form LIG electrodes. Gold nanoparticles (AuNPs) are then synthesized on the working electrode through secondary laser reduction, resulting in an AuNPs/LIG composite. This combination enhances the sensor's electrochemical activity, electron transfer rate, and adsorption capacity. The sensor exhibits a linear response to paracetamol concentrations with a detection limit of 0.086 μM. Testing on Tylenol tablets and tap water showed good recovery rates. The sensor displays strong anti-interference, reproducibility, and stability, making it a promising tool for effective paracetamol monitoring in real-world situations.

AB - This research presents a highly sensitive and selective electrochemical sensor for detecting paracetamol. The sensor is created using laser direct-writing on a flexible PI substrate to form LIG electrodes. Gold nanoparticles (AuNPs) are then synthesized on the working electrode through secondary laser reduction, resulting in an AuNPs/LIG composite. This combination enhances the sensor's electrochemical activity, electron transfer rate, and adsorption capacity. The sensor exhibits a linear response to paracetamol concentrations with a detection limit of 0.086 μM. Testing on Tylenol tablets and tap water showed good recovery rates. The sensor displays strong anti-interference, reproducibility, and stability, making it a promising tool for effective paracetamol monitoring in real-world situations.

UR - https://www.scopus.com/pages/publications/85206242600

U2 - 10.1039/d4ay01627k

DO - 10.1039/d4ay01627k

M3 - 文章

C2 - 39370962

AN - SCOPUS:85206242600

SN - 1759-9660

VL - 16

SP - 7527

EP - 7533

JO - Analytical Methods

JF - Analytical Methods

IS - 44

ER -

Laser-induced graphene/gold nanoparticle hybrid sensor for enhanced electrochemical detection of paracetamol

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