Optical Properties of Carbon Dots Synthesized by the Hydrothermal Method

In this study, the optical and structural properties of carbon dots (CDs) synthesized using a hydrothermal method were investigated. CDs were prepared from various precursors such as citric acid (CA), glucose, and birch bark soot. The SEM and AFM results show that the CDs are disc-shaped nanoparticl...

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Published in:Materials 2023-05, Vol.16 (11), p.4018
Main Authors: Egorova, Marfa, Tomskaya, Aleksandra, Smagulova, Svetlana Afanasyevna
Format: Article
Language:English
Subjects:
Acids
Analysis
Aqueous solutions
Carbon
Carbon dots
Carbonyls
Citric acid
Dextrose
Functional groups
Glucose
Graphene
Graphite
Luminescence
Methods
Microscopy
Nanomaterials
Nanoparticles
Optical properties
Organic acids
Precursors
Quantum dots
Soot
Spectrum analysis
Synthesis
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creator Egorova, Marfa
Tomskaya, Aleksandra
Smagulova, Svetlana Afanasyevna
description In this study, the optical and structural properties of carbon dots (CDs) synthesized using a hydrothermal method were investigated. CDs were prepared from various precursors such as citric acid (CA), glucose, and birch bark soot. The SEM and AFM results show that the CDs are disc-shaped nanoparticles with dimensions of ~7 nm × 2 nm for CDs from CA, ~11 nm × 4 nm for CDs from glucose, and ~16 nm × 6 nm for CDs from soot. The TEM images of CDs from CA showed stripes with a distance of 0.34 nm between them. We assumed that the CDs synthesized from CA and glucose consisted of graphene nanoplates located perpendicular to the disc plane. The synthesized CDs contain oxygen (hydroxyl, carboxyl, carbonyl) and nitrogen (amino, nitro) functional groups. CDs have strong absorption in the ultraviolet region in the range of 200-300 nm. All CDs synthesized from different precursors displayed bright luminescence in the blue-green region of the spectrum (420-565 nm). We found that the luminescence of CDs depended on the synthesis time and type of precursors. The results show that the radiative transitions of electrons occur from two levels with energies ~3.0 eV and ~2.6 eV, which are due to the presence of functional groups.
doi_str_mv 10.3390/ma16114018
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CDs were prepared from various precursors such as citric acid (CA), glucose, and birch bark soot. The SEM and AFM results show that the CDs are disc-shaped nanoparticles with dimensions of ~7 nm × 2 nm for CDs from CA, ~11 nm × 4 nm for CDs from glucose, and ~16 nm × 6 nm for CDs from soot. The TEM images of CDs from CA showed stripes with a distance of 0.34 nm between them. We assumed that the CDs synthesized from CA and glucose consisted of graphene nanoplates located perpendicular to the disc plane. The synthesized CDs contain oxygen (hydroxyl, carboxyl, carbonyl) and nitrogen (amino, nitro) functional groups. CDs have strong absorption in the ultraviolet region in the range of 200-300 nm. All CDs synthesized from different precursors displayed bright luminescence in the blue-green region of the spectrum (420-565 nm). We found that the luminescence of CDs depended on the synthesis time and type of precursors. 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subjects Acids
Analysis
Aqueous solutions
Carbon
Carbon dots
Carbonyls
Citric acid
Dextrose
Functional groups
Glucose
Graphene
Graphite
Luminescence
Methods
Microscopy
Nanomaterials
Nanoparticles
Optical properties
Organic acids
Precursors
Quantum dots
Soot
Spectrum analysis
Synthesis
title Optical Properties of Carbon Dots Synthesized by the Hydrothermal Method
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