0000000000800157

AUTHOR

Olivera Markovic

0000-0001-5830-1445

showing 3 related works from this author

Gamma irradiation of graphene quantum dots with ethylenediamine: Antioxidant for ion sensing

2020

Due to the low consumption of chemicals, the absence of toxic residual side products, the procedure simplicity and time-saving aspects, gamma irradiation offers advantages over the classical chemical protocols. We successfully employed gamma irradiation in order to introduce N-atoms in Graphene Quantum Dots (GQDs). By irradiating GQDs water dispersions in the presence of isopropyl alcohol and ethylenediamine, at doses of 25, 50 and 200 kGy, we attached amino groups onto GQDs in a single synthetic step. At the same time, a chemical reduction is achieved, too. Selected conditions induced incorporation of N-atoms within GDQs atomic lattice (around 3 at%), at all applied doses. Additionally, th…

PhotoluminescenceMaterials scienceEthylenediamine02 engineering and technologyPhotochemistry01 natural scienceslaw.inventionIonMetalchemistry.chemical_compoundlaw0103 physical sciencesMaterials ChemistryZeta potentialSensor010302 applied physicsDetection limitChemical propertiesOptical propertiesGrapheneProcess Chemistry and TechnologyCarbon Chemical properties Optical properties Sensor021001 nanoscience & nanotechnologyCarbonSurfaces Coatings and FilmsElectronic Optical and Magnetic MaterialschemistryQuantum dotvisual_artCeramics and Compositesvisual_art.visual_art_medium0210 nano-technologyCeramics International
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Blue luminescent amino-functionalized graphene quantum dots as a responsive material for potential detection of metal ions and malathion

2022

Large amounts of hazardous and toxic substances in the environment require non-toxic, cheap, easy, rapid, and sensitive methods for their detection. Blue luminescent graphene quantum dots (GQDs) were produced by electrochemical cleavage of graphite electrodes followed by gamma irradiation in the presence of ethylenediamine (EDA). Modified dots were able to detect metal ions (Co2+, Pd2+, Fe3+) due to photoluminescence quenching. The highest sensitivity was detected for the sample irradiated at a dose of 25 kGy. The limits of detection (LODs) were 1.79, 2.55, and 0.66 μmol L−1 for Co2+, Fe3+, and Pd2+, respectively. It was observed that GQDs irradiated at 200 kGy act as an ultra-sensitive tur…

Amino-functionalized graphene quantum dotsBiophysicsMalathionGeneral ChemistryGamma irradiationMetal ionsCondensed Matter PhysicsProbeBiochemistryPhotoluminescenceAtomic and Molecular Physics and OpticsSettore CHIM/02 - Chimica Fisica
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Gamma-Ray-Induced Structural Transformation of GQDs towards the Improvement of Their Optical Properties, Monitoring of Selected Toxic Compounds, and …

2022

Structural modification of different carbon-based nanomaterials is often necessary to improve their morphology and optical properties, particularly the incorporation of N-atoms in graphene quantum dots (GQDs). Here, a clean, simple, one-step, and eco-friendly method for N-doping of GQDs using gamma irradiation is reported. GQDs were irradiated in the presence of the different ethylenediamine (EDA) amounts (1 g, 5 g, and 10 g) and the highest % of N was detected in the presence of 10 g. N-doped GQDs emitted strong, blue photoluminescence (PL). Photoluminescence quantum yield was increased from 1.45, as obtained for non-irradiated dots, to 7.24% for those irradiated in the presence of 1 g of …

graphene quantum dots3-amino-124-triazolegamma-irradiationGeneral Chemical Engineeringgraphene quantum dots; N-doping; gamma-irradiation; photoluminescence; carbofuran; 3-amino-124-triazole; detection; antibacterial effectsdetectionGeneral Materials Sciencephotoluminescenceantibacterial effectsSettore CHIM/02 - Chimica FisicaN-dopingcarbofuranNanomaterials (Basel, Switzerland)
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