Synthesis, properties, applications, 3D printing and machine learning of graphene quantum dots in polymer nanocomposites

“…Additionally, the choice of precursors significantly impacts the properties of the resulting CDs, and the availability and cost of suitable precursors can limit the practical applications of the synthesized CDs. To address these challenges, the development of advanced reactor designs, such as flow reactors, can facilitate continuous and scalable production while maintaining high quality and uniformity of the CDs . Optimization of reaction conditions, such as temperature, pressure, and reaction time, can reduce energy consumption and improve efficiency.…”

Starch-Derived Carbon Dots with Enhanced Photoluminescence and Tunable Emission for Multilevel Anticounterfeiting

“…Additionally, the choice of precursors significantly impacts the properties of the resulting CDs, and the availability and cost of suitable precursors can limit the practical applications of the synthesized CDs. To address these challenges, the development of advanced reactor designs, such as flow reactors, can facilitate continuous and scalable production while maintaining high quality and uniformity of the CDs . Optimization of reaction conditions, such as temperature, pressure, and reaction time, can reduce energy consumption and improve efficiency.…”

Starch-Derived Carbon Dots with Enhanced Photoluminescence and Tunable Emission for Multilevel Anticounterfeiting

“…A standout contender among them is graphene quantum dots (GQDs), which have special physicochemical properties. Amazing mechanical flexibility, 1 electron mobility, 2 superior thermal and chemical stabilities, 3 and exceptional biocompatibility are all features of graphene 4 and graphene quantum dots (GQDs). They also have a huge surface area per unit mass.…”

Recent advances in synergistic use of GQD-based hydrogels for bioimaging and drug delivery in cancer treatment

“…Moreover, the critical attributes of a lengthy carrier diffusion path, low exciton binding energy, and wide absorption coefficient in PSCs are significantly influenced by the quality of advantageous interfacial interactions with the photoactive perovskite, as well as in the charge transfer layers. 8–11 To address these concerns, various processing methods currently utilise 2D materials in both the perovskite absorbing layer and the charge extraction layers in PSCs. This is done to enhance interface compatibility, significantly improving the morphology and photovoltaic performance of PSCs.…”

The dawn of MXene duo: revolutionizing perovskite solar cells with MXenes through computational and experimental methods