0000000000173228

AUTHOR

Abdelmoneim Sulieman

0000-0003-0830-4706

showing 3 related works from this author

Investigation of Acetone Vapour Sensing Properties of a Ternary Composite of Doped Polyaniline, Reduced Graphene Oxide and Chitosan Using Surface Pla…

2020

This work reports the use of a ternary composite that integrates p-Toluene sulfonic acid doped polyaniline (PANI), chitosan, and reduced graphene oxide (RGO) as the active sensing layer of a surface plasmon resonance (SPR) sensor. The SPR sensor is intended for application in the non-invasive monitoring and screening of diabetes through the detection of low concentrations of acetone vapour of less than or equal to 5 ppm, which falls within the range of breath acetone concentration in diabetic patients. The ternary composite film was spin-coated on a 50-nm-thick gold layer at 6000 rpm for 30 s. The structure, morphology and chemical composition of the ternary composite samples were character…

Materials sciencePolymers and PlasticsAnalytical chemistrysurface plasmon resonance sensor02 engineering and technologySulfonic acid01 natural sciencesreduced graphene oxideArticlelaw.inventionlcsh:QD241-441chemistry.chemical_compoundlcsh:Organic chemistryX-ray photoelectron spectroscopylawdoped polyanilineAcetoneFourier transform infrared spectroscopySurface plasmon resonanceacetone vapour detectionchemistry.chemical_classificationDetection limitdiabetesGraphene010401 analytical chemistrytechnology industry and agricultureGeneral Chemistry021001 nanoscience & nanotechnology0104 chemical scienceschemistrychitosan0210 nano-technologyTernary operationPolymers
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Dependence of the Optical Constant Parameters of p-Toluene Sulfonic Acid-Doped Polyaniline and Its Composites on Dispersion Solvents

2020

The optical constants of Para-Toluene sulfonic acid-doped polyaniline (PANI), PANIchitosan composites, PANI-reduced graphene-oxide composites and a ternary composite comprising of PANI, chitosan and reduced graphene-oxide dispersed in diluted p-toluene sulfonic acid (PTSA) solution and N-Methyl-2-Pyrrolidone (NMP) solvent have been evaluated and compared. The optical constant values were extracted from the absorbance spectra of thin layers of the respective samples. The potential utilization of the materials as the active sensing materials of surface plasmon resonance biosensors has also been assessed in terms of the estimated value of the penetration depth through a dielectric medium. The …

Materials scienceoptical constant parametersPharmaceutical Science02 engineering and technologyDielectricSulfonic acid01 natural sciencesOptical conductivityArticleAnalytical Chemistrylcsh:QD241-441chemistry.chemical_compoundlcsh:Organic chemistry0103 physical sciencesDrug DiscoveryPolyanilineDispersion (optics)Physical and Theoretical ChemistryComposite materialPenetration depth010302 applied physicschemistry.chemical_classificationAniline CompoundsOrganic ChemistryBenzenesulfonatesreduced graphene-oxide021001 nanoscience & nanotechnologyPyrrolidinonesSolventchemistryp-toluene sulfonic acid-doped polyanilineChemistry (miscellaneous)Molecular Medicinechitosan0210 nano-technologyRefractive indexsurface plasmon resonance (SPR)Molecules
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Acetone Vapor-Sensing Properties of Chitosan-Polyethylene Glycol Using Surface Plasmon Resonance Technique

2020

To non-invasively monitor and screen for diabetes in patients, there is need to detect low concentration of acetone vapor in the range from 1.8 ppm to 5 ppm, which is the concentration range of acetone vapor in diabetic patients. This work presents an investigation for the utilization of chitosan-polyethylene glycol (PEG)-based surface plasmon resonance (SPR) sensor in the detection of trace concentration acetone vapor in the range of breath acetone in diabetic subjects. The structure, morphology, and elemental composition of the chitosan-PEG sensing layer were characterized using FTIR, UV-VIS, FESEM, EDX, AFM, and XPS methods. Response testing was conducted using low concentration of aceto…

acetone vapor detectionMaterials sciencePolymers and Plasticsnon-invasivesurface plasmon resonance sensor02 engineering and technologyPolyethylene glycol01 natural sciencesArticlelcsh:QD241-441Propanolchemistry.chemical_compoundlcsh:Organic chemistryX-ray photoelectron spectroscopyAcetoneFourier transform infrared spectroscopySurface plasmon resonanceDetection limitdiabetes010401 analytical chemistrytechnology industry and agricultureGeneral Chemistry021001 nanoscience & nanotechnologychitosan-polyethylene glycol film0104 chemical scienceschemistryMethanol0210 nano-technologyNuclear chemistryPolymers
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