Electrochemical Sensors and Biosensors Based on Graphene Functionalized with Metal Oxide Nanostructures for Healthcare Applications

Kumar, Sudesh; Bukkitgar, Shikandar D.; Singh, Supriya; Pratibha, .; Singh, Vanshika; Reddy, Kakarla Raghava; Shetti, Nagaraj P.; Reddy, Ch. Venkata; Sadhu, Veera; Naveen, S.

doi:10.1002/slct.201803871

Cited by 170 publications

(84 citation statements)

References 175 publications

(143 reference statements)

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“…When developing new voltammetric sensors, various modification methods can be used to increase the sensitivity of analyte determination. For example, you can use the electrochemical pretreated electrodes, carbon nanomaterials, metal nanoparticles and their oxides, as well as materials that increase the sorption of analyte on the surface of the electrode…”

Section: Introductionmentioning

confidence: 99%

Determination of Carmoisine onto Carbon‐Paste Electrode Modified by Silica Impregnated with Cetylpyridinium Chloride

2020

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In this paper a simple, cheap and sensitive electrochemical sensor for determination of Carmoisine in soft drinks was developed. Carmoisine is a synthetic azo dye which is used in food products. In this work effective voltammetric sensor based on carbon‐paste electrode modified by silica impregnated with cetylpyridinium chloride to increase the sensitivity of Carmoisine detection was proposed. The voltammetric behavior of Carmoisine, the number of protons and electrons involved in the oxidation process were studied. The probable mechanism of Carmoisine oxidation on the developed sensor was suggested. The optimal conditions for the square‐wave voltammetric determination of Carmoisine onto developed sensor were found to be: pH=2; Eads=400 mV; tads=300s; A=50 mV; ν=25 Hz, υ=100 mV/s. The calibration curve was linear in the range of Carmoisine concentrations 0,08‐1 μM. The proposed method was successfully tested in the analysis of Carmoisine in soft drinks with RSD not more than 5%.

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Section: Introductionmentioning

confidence: 99%

Determination of Carmoisine onto Carbon‐Paste Electrode Modified by Silica Impregnated with Cetylpyridinium Chloride

2020

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“…Although recent works have reported better limits of detection for glucose like some electrochemical or colorimetric methods, they usually require sophisticated devices or protocols, long procedure times, expensive reagents or the previous synthesis of the materials to use. Moreover, as it can be seen in Table S1, the majority of the colorimetric methods are based on the change of color from a chemical substrate or due to a morphological change of nanoparticles .…”

Section: Resultsmentioning

confidence: 98%

“…This system was selected considering glucose importance in clinical for diabetes management. During the last decades, glucose biosensor technology including point‐of‐care devices, continuous glucose monitoring systems and noninvasive glucose monitoring systems have been significantly improved and great efforts have been made to achieve better accuracy, precision and sensibility by using different techniques (colorimetry, photoelectrochemistry, electrochemistry). Here we present an easy colorimetric method that could be integrated in a smartphone application for a rapid, easy and cos‐effective determination of the desired analyte.…”

Section: Introductionmentioning

confidence: 99%

Facile Synthesis and Characterization of Ag/Ag₂S Nanoparticles Enzymatically Grown In Situ and their Application to the Colorimetric Detection of Glucose Oxidase

et al. 2019

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This work describes a simple, fast and reproducible biochemical reaction to modulate the growth of silver/silver sulfide nanoparticles (Ag/Ag 2 S NPs) through the enzymatic activity of the glucose oxidase (GOx). This process occurs in aqueous buffered solutions at room temperature under physiological conditions with participation of inexpensive precursors. Oxidation of 1thio-β-D-glucose is catalyzed by GOx yielding hydrogen sulfide. Direct interaction between silver nitrate and enzymatically produced H 2 S in the presence of citric acid as capping agent leads to the generation of Ag/Ag 2 S NPs. UV-vis spectroscopy is employed to characterize absorbance spectra of resulting Ag/ Ag 2 S NPs with the highest signal-to-noise ratio at 385 nm. Enzymatically produced Ag/Ag 2 S NPs are characterized by TEM, XPS, DLS and XRD. This new colorimetric method was applied to the detection of enzymatic activity of GOx (LOD 0.557 μg mL-1 and linear range up to 1.5 μg mL-1). The effect of Dglucose on the read-out signal has been studied to confirm the enzymatic mechanism of this process (LOD 176.21 μM and linear range up to 1.25 mM) and was applied to the detection of glucose in human plasma.

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“…Based on the transduction mechanism used, optical, electrochemical and piezoelectric sensors can be distinguished. To improve their performance, modifying layers made from polysaccharide , conducting polymers , carbon nanomaterials , ZnO and TiO 2 nanoparticles , biological receptors , nanosilica and zeolites are introduced.…”

Section: Introductionmentioning

confidence: 99%

The Mn‐zeolite/Graphite Modified Glassy Carbon Electrode: Fabrication, Characterization and Analytical Applications

2020

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In this work, low‐cost and environmentally friendly natural zeolite exchanged with Mn2+ cations was used for the first time to modify the glassy carbon electrode with the aim to obtain a fast and simple sensor for voltammetric determination of paracetamol (PAR). The Mn‐zeolite/graphite modified glassy carbon electrode (MnZG−GCE) was prepared by evaporation of solvent from dispersion of the zeolite/graphite mixture with the polymer in acetone. The electrochemical characteristics of MnZG−GCE were conducted by electrochemical impedance spectroscopy and cyclic voltammetry. Compared with graphite modified GCE (G−GCE), MnZG−GCE exhibited better electrochemical parameters, which confirms the superiority of applying zeolite in the proposed sensor. The optimization of the pH‐value of supporting electrolyte and instrumental parameters were carried out. The peak current was proportional to the concentration of PAR in a phosphate buffer saline of pH 6.0 in the range from 0.029 to 0.69 mg L−1 (R=0.9997) with limit of detection of 8.8 μg L−1. Finally, the proposed electrode was successfully applied to determine the paracetamol in pharmaceutical formulation and certified reference materials. The satisfactory recoveries, which ranged from 89.2 to 102.7 %, were obtained for all studied samples. It confirmed the attractiveness of relatively inexpensive, easy to fabricate and non‐toxic MnZG−GCE in determination of PAR in complicated matrixes.

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Electrochemical Sensors and Biosensors Based on Graphene Functionalized with Metal Oxide Nanostructures for Healthcare Applications

Cited by 170 publications

References 175 publications

Determination of Carmoisine onto Carbon‐Paste Electrode Modified by Silica Impregnated with Cetylpyridinium Chloride

Determination of Carmoisine onto Carbon‐Paste Electrode Modified by Silica Impregnated with Cetylpyridinium Chloride

Facile Synthesis and Characterization of Ag/Ag₂S Nanoparticles Enzymatically Grown In Situ and their Application to the Colorimetric Detection of Glucose Oxidase

The Mn‐zeolite/Graphite Modified Glassy Carbon Electrode: Fabrication, Characterization and Analytical Applications

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Electrochemical Sensors and Biosensors Based on Graphene Functionalized with Metal Oxide Nanostructures for Healthcare Applications

Cited by 170 publications

References 175 publications

Determination of Carmoisine onto Carbon‐Paste Electrode Modified by Silica Impregnated with Cetylpyridinium Chloride

Determination of Carmoisine onto Carbon‐Paste Electrode Modified by Silica Impregnated with Cetylpyridinium Chloride

Facile Synthesis and Characterization of Ag/Ag2S Nanoparticles Enzymatically Grown In Situ and their Application to the Colorimetric Detection of Glucose Oxidase

The Mn‐zeolite/Graphite Modified Glassy Carbon Electrode: Fabrication, Characterization and Analytical Applications

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Facile Synthesis and Characterization of Ag/Ag₂S Nanoparticles Enzymatically Grown In Situ and their Application to the Colorimetric Detection of Glucose Oxidase