Composite films based on copper nanoparticles and nickel phthalocyanine as electrochemical sensors for serotonin detection

Electrochemical sensors for detecting neurotransmitters have been extensively explored owing to the versatility and low cost of electrochemical techniques. Although serotonin (5-HT) is a very important neurotransmitter, very few studies have investigated its electrochemical detection. Herein, the us...

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Published in:Surfaces and interfaces 2021-08, Vol.25, p.101245, Article 101245
Main Authors: de Oliveira, Monialine Sousa, Farias, Emanuel Airton de Oliveira, de Sousa, Agline Maria Santos, Dionísio, Natália Araújo, Teixeira, Paulo Ronaldo Sousa, Teixeira, Ana Siqueira do Nascimento Marreiro, da Silva, Durcilene Alves, Eiras, Carla
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Language:English
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Detection
Nanotechnology
Neurotransmitters
Sensor
Thin film
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cited_by cdi_FETCH-LOGICAL-c306t-ea733251162114517936792721ef7afb94a9df0865b506e626b4bd7c23c97cfc3
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container_start_page 101245
container_title Surfaces and interfaces
container_volume 25
creator de Oliveira, Monialine Sousa
Farias, Emanuel Airton de Oliveira
de Sousa, Agline Maria Santos
Dionísio, Natália Araújo
Teixeira, Paulo Ronaldo Sousa
Teixeira, Ana Siqueira do Nascimento Marreiro
da Silva, Durcilene Alves
Eiras, Carla
description Electrochemical sensors for detecting neurotransmitters have been extensively explored owing to the versatility and low cost of electrochemical techniques. Although serotonin (5-HT) is a very important neurotransmitter, very few studies have investigated its electrochemical detection. Herein, the use of layer-by-layer (LbL) films, containing layers of copper nanoparticles alternating with nickel phthalocyanine in indium-doped tin-oxide electrodes, for electrochemically detecting 5-HT is proposed. Copper nanoparticles were synthesized and characterized based on size, zeta potential, and spectroscopic behavior in the ultraviolet–visible (UV–Vis) region. Subsequently, the films were produced and characterized by UV–Vis spectroscopy and cyclic voltammetry. The electrochemical response of the films was evaluated as a function of the supporting electrolyte, number of adsorbed layers, material adsorption sequence, stability, electrochemical mechanism, and other parameters. In the electrochemical detection of serotonin, the developed material exhibited high sensitivity and specificity for 5-HT compared to some interferents such as ascorbic acid, hydrogen peroxide, cysteine, sulfamethoxazole, and aspartic acid. The results showed a 400% increase in the current densities of the film in the presence of 20 µmol•L−1 of 5-HT. The electrochemical signal recorded for 5-HT was unaffected even in the presence of ascorbic acid at the same concentration. The sensor exhibited a linear response over a wide concentration range (0.35–135 µmol•L−1) and a low detection limit (0.13 µmol•L−1) for 5-HT. Furthermore, the developed electrode enables successive 5-HT analyses without requiring new films. The material reported herein is promising for 5-HT electrochemical analysis in biological samples.
doi_str_mv 10.1016/j.surfin.2021.101245
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subjects Detection
Nanotechnology
Neurotransmitters
Sensor
Thin film
title Composite films based on copper nanoparticles and nickel phthalocyanine as electrochemical sensors for serotonin detection
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