Potentiodynamic Electrochemical Impedance Spectroscopy of Polyaniline-Modified Pencil Graphite Electrodes for Selective Detection of Biochemical Trace Elements

Yavarinasab, Adel; Abedini, Mostafa; Tahmooressi, Hamed; Janfaza, Sajjad; Tasnim, Nishat; Hoorfar, Mina

doi:10.3390/polym14010031

Cited by 12 publications

(12 citation statements)

References 46 publications

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“…The processes arising from the Fe 2+ / 3+ redox probe at the electrode interface are presented with the Randles equivalent circuit as a capacitor in parallel with a series of a resistor for a charge transfer resistivity and a Warburg impedance element (C|(Rct-W); labeled IV). The charge transfer resistance for oxidation of Fe 2+ to Fe 3+ in the absence of bacteria was found to be 650 Ω which agrees with previously reported values. , …”

Section: Resultssupporting

confidence: 91%

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Cationic Covalent Organic Polymer Thin Film for Label-free Electrochemical Bacterial Cell Detection

et al. 2022

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Numerous species of bacteria pose a serious threat to human health and cause several million deaths annually. It is therefore essential to have quick, efficient, and easily operable methods of bacterial cell detection. Herein, we synthesize a novel cationic covalent organic polymer (COP) named CATN through the Menshutkin reaction and evaluate its potential as an impedance sensor for Escherichia coli cells. On account of its positive surface charge (ζ-potential = +21.0 mV) and pyridinium moieties, CATN is expected to interact favorably with bacteria that possess a negatively charged cell surface through electrostatic interactions. The interdigitated electrode arrays were coated with CATN using a simple yet non-traditional method of electrophoresis and then used in two-electrode electrochemical impedance spectroscopy (EIS) measurements. The impedance response showed a linear relationship with the increasing concentration of E. coli . The system was sensitive to bacterial concentrations as low as ∼30 CFU mL –1 , which is far below the concentration considered to cause illnesses. The calculated limit of detection was as low as 2 CFU mL –1 . This work is a rare example of a COP used in this type of bacteria sensing and is anticipated to stimulate further interest in the synthesis of organic polymers for EIS-based sensors.

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Section: Resultssupporting

confidence: 91%

“…The charge transfer resistance for oxidation of Fe 2+ to Fe 3+ in the absence of bacteria was found to be 650 Ω which agrees with previously reported values. 32 , 33 …”

Section: Resultsmentioning

confidence: 99%

Cationic Covalent Organic Polymer Thin Film for Label-free Electrochemical Bacterial Cell Detection

et al. 2022

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“…While all individual measurements were conducted at 1000 Hz, it was observed that in the SCFA mixture more robust results could be obtained at the frequency of 100 Hz. The imaginary component of impedance ( Z ” ) at 100 Hz is reported instead of Z ’ as the response is directly associated with the charge transfer resistance [27] and Z ” maintained a linear relationship with different acid concentrations, indicating its utility in converting the sensor measurements to SCFA concentrations in mixture conditions. For example, the descending value of Z ” ( Figure S7a-b ) for the impedance changes of acetic acid at the concentration of 10 mg/ml and 0.5 mg/ml of propionic acid and butyric acid and the increasing value of Z ” for propionic acid in the mixture ( Figure S7c-d ) revealed the same trend as it was observed in the MM and pure electrolyte.…”

Section: Resultsmentioning

confidence: 99%

“…The copyright holder for this preprint this version posted September 13, 2022. ; https://doi.org/10.1101/2022.09.11.507374 doi: bioRxiv preprint that allow real time detection, electrochemical sensors, and more specifically chemiresistors, provide extremely high selectivity [27]. They also come with other benefits such as ease of fabrication and miniaturization, small footprint, high stability and high temporal-spatial resolution, which are all important for real-time monitoring of biochemical molecules [27]. Chemiresistors are made up of a conductive thin-film sensing layer sandwiched by a pair of electrodes.…”

Section: Introductionmentioning

confidence: 99%

“…Real time analysis of SCFAs would be an important advancement in the medical field by allowing immediate and direct reporting of the availability of these critical compounds. Among the techniques that allow real time detection, electrochemical sensors, and more specifically chemiresistors, provide extremely high selectivity [27]. They also come with other benefits such as ease of fabrication and miniaturization, small footprint, high stability and high temporal-spatial resolution, which are all important for real-time monitoring of biochemical molecules [27].…”

Section: Introductionmentioning

confidence: 99%

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An impedance-based chemiresistor for the real-time detection of gut microbiota-generated short-chain fatty acids

Yavarinasab

Flibotte²,

Liu

et al. 2022

Preprint

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Short chain fatty acids (SCFAs) are key molecules produced by gut bacteria in the intestine, that are absorbed into the bloodstream and strongly influence human health. SCFA disruption and imbalances have been linked to many diseases; however, they are seldom used diagnostically as their detection requires extensive sample preparation and expensive equipment. In this work, an electrochemical sensor was developed to enable real time, quantitative measurement of SCFAs from complex samples in liquid phase without the need for extraction, evaporation, or destruction. An impedance based sensor for in vitro detection of acetic acid, propionic acid, and butyric acid (accounting for more than 95% of SCFAs in the intestine) was fabricated by the deposition of a ZnO and polyvinyl alcohol (PVA) on the surface of a microfabricated interdigitated gold electrode. The sensor was first exposed to a broad, physiologically relevant range of concentrations of SCFAs in isolation (0.5 to 20 mg/ml) and unlike previously published SCFA sensors that could detect only in gas form with the aid of evaporation, it was able to detect them directly in the liquid phase at room temperature. Electrochemical impedance spectroscopy analysis was then applied to the mixture of SCFAs prepared at different ratios and in complex media at concentrations ranging from 0.5 to 10 mg/ml, which showed the capability of the sensor to measure SCFAs in experimentally relevant mixture. The recorded faradaic responses were then used to train a fit to data model to utilize the sensor to screen human bacterial isolates and detect which species secrete SCFAs in vitro. This work will allow for the rapid and non destructive determination of the levels of SCFAs in complex biological samples, providing a miniaturized, highly stable, and highly sensitive sensor for real time monitoring applications.

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Eco‐Friendly Electrosynthesis of Cu‐PANI‐Pencil Composite: Enhanced Their Current Value, Acid Sensing, Click Chemistry and Turn On‐Off Sunlight Photo‐Catalytical H₂O₂ Activation

Sevillano‐Arredondo,

Pacheco‐Alvarez,

Luis Pichardo

et al. 2024

ChemSusChem

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In this contribution, we report a straightforwardly and easily one‐step synthesis of a small family of composites based in polyaniline grafted on HB2 graphite (PANI@UG) and their copper‐doped derivatives (Cu50PANI@UG5‐6). The PANI@UG composites were synthesized through electrochemical polymerization using cyclic voltammetry (CV) in three different acidic media: i) acetic acid (AcOH) at high and low concentration (12 and 1 M, using KCl as electrolytic support); ii) a mixture of AcOH and sulfuric acid (H2SO4, which have two roles: as electrolytic support and proton source) and iii) a mixture of acetonitrile (NCCH3) and H2SO4, under atmospheric conditions. Once the best conditions were achieved, our next step was focused on obtaining the Cu50PANI@UG5‐6 composites using a solution of aniline and CuSO4 (50 mM) in AcOH:H2SO4 and NCCH3:H2SO4 solutions, respectively. All composites were characterized by CV, FT‐IR, SEM and MALDI‐TOF experiments. So, the current value was enhanced for the Cu50PANI@UG6 composite, which have three potential catalytical applications in: i) HClO4 acid sensing, ii) click chemistry and iii) sunlight drive photo‐activation of H2O2.

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Potentiodynamic Electrochemical Impedance Spectroscopy of Polyaniline-Modified Pencil Graphite Electrodes for Selective Detection of Biochemical Trace Elements

Cited by 12 publications

References 46 publications

Cationic Covalent Organic Polymer Thin Film for Label-free Electrochemical Bacterial Cell Detection

Cationic Covalent Organic Polymer Thin Film for Label-free Electrochemical Bacterial Cell Detection

An impedance-based chemiresistor for the real-time detection of gut microbiota-generated short-chain fatty acids

Eco‐Friendly Electrosynthesis of Cu‐PANI‐Pencil Composite: Enhanced Their Current Value, Acid Sensing, Click Chemistry and Turn On‐Off Sunlight Photo‐Catalytical H₂O₂ Activation

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Potentiodynamic Electrochemical Impedance Spectroscopy of Polyaniline-Modified Pencil Graphite Electrodes for Selective Detection of Biochemical Trace Elements

Cited by 12 publications

References 46 publications

Cationic Covalent Organic Polymer Thin Film for Label-free Electrochemical Bacterial Cell Detection

Cationic Covalent Organic Polymer Thin Film for Label-free Electrochemical Bacterial Cell Detection

An impedance-based chemiresistor for the real-time detection of gut microbiota-generated short-chain fatty acids

Eco‐Friendly Electrosynthesis of Cu‐PANI‐Pencil Composite: Enhanced Their Current Value, Acid Sensing, Click Chemistry and Turn On‐Off Sunlight Photo‐Catalytical H2O2 Activation

Contact Info

Product

Resources

About

Eco‐Friendly Electrosynthesis of Cu‐PANI‐Pencil Composite: Enhanced Their Current Value, Acid Sensing, Click Chemistry and Turn On‐Off Sunlight Photo‐Catalytical H₂O₂ Activation