Soluble fluorescent polymeric nanoparticles based on pyrrole derivatives: synthesis, characterization and their structure dependent sensing properties

A three-dimensional and highly porous polypyrrole (PPy) film was successfully coated onto a copper interdigital electrode (Cu-IDE) surface by electrospinning of soluble PPy nanoparticles.The chemical composition of PPy nanoparticles was analyzed using X-ray photoelectron spectroscopy (XPS) and fourier transform infrared spectroscopy (FT-IR). The Brunauer-Emmett-Teller (BET) analysis confirmed the porous nature of PPy nanoparticles. The field emission scanning electron microscopy (FE-SEM) images of polymer coated Cu-IDE revealed that PPy nanoparticles were assembled by electrical forces to form an outstanding honeycomb-like architecture. As a proof-of-concept demonstration of the functional properties of the electrospun PPy (Es-PPy) film, the polymer coated Cu-IDE was investigated as a sensing device for gas sensor.The as-prepared Es-PPy film proved to be a viable aliphatic amines sensing material with large response, low detection limit, fast response and good repeatability at a low operating temperature of 150˚C. Moreover, the sensor demonstrated an extremely high sensitivity and selectivity to nbutylamine. The calibration sensitivity to n-butylamine is up to three orders of magnitude higher than that of other common aliphatic amines. The detection limit and linear range for determination of n-butylamine were 0.42 ppm and 10.54-21.08 ppm, respectively. Es-PPy gas sensor exhibited good repeatability with RSD ≤ 8% at temperature ranges 90-200°C. The response of the Es-PPy sensor to n-butylamine was compared with electrochemically and drop coated sensors and found that it has an extremely higher response. Finally, the Es-PPy gas sensor was successfully applied to real well water sample analysis.

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“…Soluble PPy nanoparticles were prepared as described by our previous work [37]. The detailed synthesis process was as follows.…”

Section: Synthesis Of Soluble Ppy Nanoparticlesmentioning

confidence: 99%

Electrospun soluble conductive polypyrrole nanoparticles for fabrication of highly selective n-butylamine gas sensor

Akbarinejad

Ghoorchian

Kamalabadi

et al. 2016

Sensors and Actuators B: Chemical

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“…22 In the past two decades, aptamer-based biosensors with high specicity and affinity have become a signicant diagnostic tool for capturing and detection of a wide number of analytes ranging from small molecules, 23,24 ions, 25,26 peptides, 27 proteins 28 and cells. 29 Nanotechnology has been widely used as an efficient tool to improve the sensitivity of all kinds of sensors and biosensors including aptasensors by signal amplication on a wide variety of nanomaterials and nanostructures such as metal nanoclusters and nanoparticles, 30-32 electrospun nano-bers, 33,34 conjugated polymers [35][36][37] and carbon-based materials. 38 The integration of electrochemical detection techniques with aptamer-and nano-technologies is a unique combination, enabling the development of highly advanced sensing platforms for detection of almost all kinds of target analytes in a sensitive, selective, fast and reliable manner.…”

Section: Introductionmentioning

confidence: 99%

A nanoporous gold-based electrochemical aptasensor for sensitive detection of cocaine

2019

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The increasing application of aptamers in bioassays has triggered a lot of research interest for development of highly sensitive and selective sensing platforms. Herein, we report on the design of a sensitive cocaine biosensor by immobilizing the 5 0 -disulfide-functionalized end of an aptamer sequence on a nanoporous gold (NPG) electrode followed by the conjugation of its 3 0 -amino-functionalized end to 2,5dihydroxybenzoic acid (DHBA) as the redox probe. In the presence of cocaine, the aptamer undergoes a conformational change from an open unfolded state to a closed conformation, which reduces the distance between DHBA and the electrode surface, resulting in the enhanced electron-transfer efficiency.Using square wave voltammetric method and under the optimal conditions, the cocaine aptasensor presented two linear responses in the concentration ranges between 0.05-1 and 1-35 mM, with an excellent detection limit of 21 nM. The proposed aptasensor provides a simple and low-cost method for cocaine detection with good reproducibility and accuracy. Furthermore, it could be regarded as a general model to investigate the unique function of aptamer-functionalized nanostructured electrodes to stablish highly advanced electrochemical biosensors for various target analytes of diagnostic importance.

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“…Conjugated polymers based on pyrrole and its derivatives have recently gained tremendous popularity for development of fluorescence sensor platforms. The research devoted to this class of conjugated materials has been led to fabrication of fluorescence sensors for ions [20], molecules [21] and proteins [22].…”

Section: Introductionmentioning

confidence: 99%

Design of a sensing platform with dual performance for detection of hydrogen peroxide and Fe3+ based on a new fluorescent oligo N-phenylpyrrole derivative

Jahanian

Akbarinejad

Alizadeh

2017

Sensors and Actuators B: Chemical

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Fe 3+ ion and hydrogen peroxide (H 2 O 2 ) have attracted tremendous research interests in the field of analytical chemistry, due to their vast area of use. We report herein the design of fluorescence sensor with dual performance toward detection of H 2 O 2 and Fe 3+ utilizing a novel oligo N-phenylpyrrole (ONPP) derivative. ONPP was synthesized using the oxidation of Nphenylpyrrole by Cu 2+ as a mild oxidant agent. The fluorescence of ONPP could be selectively quenched by Fe 3+ ion, resulting in a recognition platform for Fe 3+ ion. The quenching of ONPP emission by Fe 3+ was also applied as a strategy for design of a H 2 O 2 fluorescence sensor based on the oxidative generation of Fe 3+ by H 2 O 2 in the presence of optimized concentration of Fe 2+ ion in solution. The developed fluorescence sensor provides a simple and cost effective approach for detection of Fe 3+ and H 2 O 2 traces with linear ranges of 0.2-6.1 and 0.1-0.57 µmol L -1 and detection limits of 0.17 and 0.03 µmol L -1 , respectively. The results of this research will open up new vistas in the synthesis of fluorescent oligomer materials and their application for development of sensitive, simple, low cost and reliable sensing platforms with versatile performance.

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Soluble fluorescent polymeric nanoparticles based on pyrrole derivatives: synthesis, characterization and their structure dependent sensing properties

Cited by 35 publications

References 63 publications

Electrospun soluble conductive polypyrrole nanoparticles for fabrication of highly selective n-butylamine gas sensor

Electrospun soluble conductive polypyrrole nanoparticles for fabrication of highly selective n-butylamine gas sensor

A nanoporous gold-based electrochemical aptasensor for sensitive detection of cocaine

Design of a sensing platform with dual performance for detection of hydrogen peroxide and Fe3+ based on a new fluorescent oligo N-phenylpyrrole derivative

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