Effects of Reaction Temperature and Time on Structural, Morphological and Optical Properties of Magnetite Quantum Dots Prepared by Solvothermal Method

Ajibade, Peter A.; Mona, Lijo P.; Songca, Sandile P.

doi:10.1007/s10904-023-02841-3

J Inorg Organomet Polym

2023

DOI: 10.1007/s10904-023-02841-3

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Effects of Reaction Temperature and Time on Structural, Morphological and Optical Properties of Magnetite Quantum Dots Prepared by Solvothermal Method

Peter A. Ajibade,

Lijo P. Mona,

Sandile P. Songca

Abstract: Magnetite quantum dots were synthesized by solvothermal method in a conventional reflux setup, in an inert environment, at different reaction temperatures and times. Powder X-ray diffraction patterns of the as-prepared iron oxide confirmed magnetite crystalline phases irrespective of the reaction conditions. TEM micrographs revealed that the iron oxides obtained at 200, 180 and 165 °C are spherical in shapes with mean particle sizes of 3.25, 3.3 and 3.90 nm respectively, showing an increase in particle size w… Show more

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2024

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Speedy synthesis of magnetite/carbon dots for efficient chromium removal and reduction: a combined experimental and DFT approach

Tohamy

2024

emergent mater.

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Magnetic carbon dots (Fe3O4/N–CQDs) was prepared by and eco-friendly and one-step microwave method using sugarcane bagasse (SB) as a starting material, and applied to remove ad reduce Cr(VI) in wastewater. The magnetization process was performed by a novel microwave method instead of the long time conventional co-precipitation method. The prepared Fe3O4/N–CQDs showed high saturated magnetization (Ms ~ 38.047 emu/g). When neat N–CQDs and Fe3O4/N–CQDs were applied to adsorb Cr(VI), the R% was slightly higher in the case of Fe3O4/N–CQDs (93.86%) compared to N–CQDs (91.73%). Moreover, the reduction rate of Cr(VI) by Fe3O4/N–CQDs was higher than the N–CQDs. The study confirmed the presence of magnetic iron oxide (Fe-O) in the N–CQDs at 655 cm−1 using FTIR spectroscopy. Interestingly, XRD analysis revealed peaks indicative of elemental iron (Fe(0)) alongside the iron oxide. Furthermore, TGA/DTG analysis showed a significantly higher weight residue (∑RW) for Fe3O4/N–CQDs compared to N–CQDs alone, suggesting enhanced thermal stability due to the Fe3O4 component. This stability is further supported by higher activation energy (∑A) and pre-exponential factor (∑s) obtained for Fe3O4/N–CQDs compared to N–CQDs. The prepared Fe3O4/N–CQDs showed higher fluorescence compared to the N–CQDs, which make them suitable as a chemosensor for the future work. In addition, DFT calculations confirmed the high stability of the Fe3O4/N–CQDs compared to N–CQDs. Graphical Abstract

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Speedy synthesis of magnetite/carbon dots for efficient chromium removal and reduction: a combined experimental and DFT approach

Tohamy

2024

emergent mater.

View full text Add to dashboard Cite

show abstract

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Effects of Reaction Temperature and Time on Structural, Morphological and Optical Properties of Magnetite Quantum Dots Prepared by Solvothermal Method

Cited by 1 publication

References 55 publications

Speedy synthesis of magnetite/carbon dots for efficient chromium removal and reduction: a combined experimental and DFT approach

Speedy synthesis of magnetite/carbon dots for efficient chromium removal and reduction: a combined experimental and DFT approach

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