A facile ultrasonic-assisted fabrication of nitrogen-doped carbon dots/BiOBr up-conversion nanocomposites for visible light photocatalytic enhancements

Abstract: A highly efficient novel photocatalyst consisting of nitrogen-carbon dots (N-CDs) and three-dimensional (3D) hierarchical BiOBr was synthesized via a simple ultrasonic-assisted method and used for the degradation of hazardous dyes. Deposition of N-CDs onto the surface of BiOBr was confirmed through structure and composition characterizations. The N-CDs/BiOBr composites exhibited superior activity for organic contaminant degradation under visible light and the 1 wt% N-CDs/BiOBr composite showed the highest degr… Show more

“…35 Zhang et al addressed synthesizing the new BiOBr/N-CD nanocomposites using straightforward ultrasonic based method in which the connection between BiOBr and nitrogencarbon dots (N-CDs) is the key element. 36 Moreover, Ma et al have introduced a simple ultrasonic based approach for synthesizing the NCDs with the use of the aqua ammonia and glucose as the precursor. NCDs shows high aqueous dispersibility with no surface modications, that also revelas stable and robust visible emissions as well as the high upconversion PL, at the same time.…”

Carbon and graphene quantum dots: a review on syntheses, characterization, biological and sensing applications for neurotransmitter determination

“…35 Zhang et al addressed synthesizing the new BiOBr/N-CD nanocomposites using straightforward ultrasonic based method in which the connection between BiOBr and nitrogencarbon dots (N-CDs) is the key element. 36 Moreover, Ma et al have introduced a simple ultrasonic based approach for synthesizing the NCDs with the use of the aqua ammonia and glucose as the precursor. NCDs shows high aqueous dispersibility with no surface modications, that also revelas stable and robust visible emissions as well as the high upconversion PL, at the same time.…”

Carbon and graphene quantum dots: a review on syntheses, characterization, biological and sensing applications for neurotransmitter determination

“…Among natural polymers, gelatin due to its good pharmacological characteristics (as excellent biocompatibility and degradability to non-toxic products) and low cost, could be an excellent candidate for the synthesis of CDs [14,15]. Commonly techniques have been used to synthesis CDs to include electrochemical synthesis [16,17], chemical oxidation [18], laser ablation of graphite [19], ultrasonic methods [20], hydrothermal [21,22], solvothermal [23] and microwave-assisted pyrolysis [24,25]. However, most of these techniques may involve a) complex reactions, b) time-consuming processes, c) post-treatment procedures and d) an expensive carbon source, which limit the applications of CDs.…”

Microwave-assisted and one-step synthesis of PEG passivated fluorescent carbon dots from gelatin as an efficient nanocarrier for methotrexate delivery

“…Zhang et al addressed the synthesis of the new nitrogen carbon dots (N-CDs) using a simple ultrasonic-assisted method and deposited them on the surface of BiOBr to build a photocatalyst consisting of BiOBr/N-CDs nanocomposites. N. Arsalani et al [ 78 ] prepared the polyethylene glycol passivated fluorescent carbon dots (CDs-PEG) through a green and simple process under microwave assistance [ 79 ].…”

A Critical Review of Carbon Quantum Dots: From Synthesis toward Applications in Electrochemical Biosensors for the Determination of a Depression-Related Neurotransmitter