Carbon quantum dots (CQDs), are a novel class of carbon nanomaterials that exhibit outstanding physical, chemical, and optical characteristics in addition to strong light absorption. By substituting some of the carbon atoms in CQDs for heteroatoms like N, B, P, and S, it is possible to modify the surface chemistry and electronic properties of the structures, boosting their catalytic activity. Adding B dopant to CQDs changes its surface chemistry and morphology, opening up a wide range of potential uses. The presented study illustrates a quick and environmentally friendly method for producing B-CQDs through microwave-assisted method. According to TEM characterization, the generated B-CQDs had a spherical form, an average diameter of 12 nm, and were negatively charged particles with good water dispersibility and no discernible aggregation. The thorough surface chemistry characterization revealed the presence of B-O and B-C bonds, as well as oxygen-containing surface functional groups in ...the form of hydroxyl, carbonyl, and carboxyl groups. Additionally, using an RB organic dye as a model molecule, the sonocatalytic, photocatalytic, and synergistic effects of the two processes were investigated.
Source:
28th International Symposium on Analytical and Environmental Problems : Proceedings, 2022, 289-293
TY - CONF
AU - Prekodravac, Jovana
AU - Vasiljević, Bojana
AU - Despotović, Vesna
AU - Zec, Nataša
AU - Todorović-Marković, Biljana
PY - 2022
UR - https://vinar.vin.bg.ac.rs/handle/123456789/13611
AB - Carbon quantum dots (CQDs), are a novel class of carbon nanomaterials that exhibit outstanding physical, chemical, and optical characteristics in addition to strong light absorption. By substituting some of the carbon atoms in CQDs for heteroatoms like N, B, P, and S, it is possible to modify the surface chemistry and electronic properties of the structures, boosting their catalytic activity. Adding B dopant to CQDs changes its surface chemistry and morphology, opening up a wide range of potential uses. The presented study illustrates a quick and environmentally friendly method for producing B-CQDs through microwave-assisted method. According to TEM characterization, the generated B-CQDs had a spherical form, an average diameter of 12 nm, and were negatively charged particles with good water dispersibility and no discernible aggregation. The thorough surface chemistry characterization revealed the presence of B-O and B-C bonds, as well as oxygen-containing surface functional groups in the form of hydroxyl, carbonyl, and carboxyl groups. Additionally, using an RB organic dye as a model molecule, the sonocatalytic, photocatalytic, and synergistic effects of the two processes were investigated.
PB - Szeged : University of Szeged
C3 - 28th International Symposium on Analytical and Environmental Problems : Proceedings
T1 - Surface Chemistry of ʺBoronʺ Doped Carbon Quantum Dots
SP - 289
EP - 293
UR - https://hdl.handle.net/21.15107/rcub_vinar_13611
ER -
@conference{
author = "Prekodravac, Jovana and Vasiljević, Bojana and Despotović, Vesna and Zec, Nataša and Todorović-Marković, Biljana",
year = "2022",
abstract = "Carbon quantum dots (CQDs), are a novel class of carbon nanomaterials that exhibit outstanding physical, chemical, and optical characteristics in addition to strong light absorption. By substituting some of the carbon atoms in CQDs for heteroatoms like N, B, P, and S, it is possible to modify the surface chemistry and electronic properties of the structures, boosting their catalytic activity. Adding B dopant to CQDs changes its surface chemistry and morphology, opening up a wide range of potential uses. The presented study illustrates a quick and environmentally friendly method for producing B-CQDs through microwave-assisted method. According to TEM characterization, the generated B-CQDs had a spherical form, an average diameter of 12 nm, and were negatively charged particles with good water dispersibility and no discernible aggregation. The thorough surface chemistry characterization revealed the presence of B-O and B-C bonds, as well as oxygen-containing surface functional groups in the form of hydroxyl, carbonyl, and carboxyl groups. Additionally, using an RB organic dye as a model molecule, the sonocatalytic, photocatalytic, and synergistic effects of the two processes were investigated.",
publisher = "Szeged : University of Szeged",
journal = "28th International Symposium on Analytical and Environmental Problems : Proceedings",
title = "Surface Chemistry of ʺBoronʺ Doped Carbon Quantum Dots",
pages = "289-293",
url = "https://hdl.handle.net/21.15107/rcub_vinar_13611"
}
Prekodravac, J., Vasiljević, B., Despotović, V., Zec, N.,& Todorović-Marković, B.. (2022). Surface Chemistry of ʺBoronʺ Doped Carbon Quantum Dots. in 28th International Symposium on Analytical and Environmental Problems : Proceedings
Szeged : University of Szeged., 289-293.
https://hdl.handle.net/21.15107/rcub_vinar_13611
Prekodravac J, Vasiljević B, Despotović V, Zec N, Todorović-Marković B. Surface Chemistry of ʺBoronʺ Doped Carbon Quantum Dots. in 28th International Symposium on Analytical and Environmental Problems : Proceedings. 2022;:289-293.
https://hdl.handle.net/21.15107/rcub_vinar_13611 .
Prekodravac, Jovana, Vasiljević, Bojana, Despotović, Vesna, Zec, Nataša, Todorović-Marković, Biljana, "Surface Chemistry of ʺBoronʺ Doped Carbon Quantum Dots" in 28th International Symposium on Analytical and Environmental Problems : Proceedings (2022):289-293,
https://hdl.handle.net/21.15107/rcub_vinar_13611 .
