Application
Carboxylated graphene quantum dots are designed to harness the unique properties of carbon's allotropes, specifically graphite, to create advanced materials with enhanced functionalities. By utilizing the crystalline structure of graphite, where carbon atoms are arranged in layered formations and bound by covalent bonds, these quantum dots leverage graphite's excellent electrical conductivity and chemical stability. The carboxylation process introduces functional groups that enhance their solubility and reactivity, thereby broadening their applicability in various fields such as sensors, bioimaging, and optoelectronics. Essentially, carboxylated graphene quantum dots offer the potential to innovate within industries that benefit from materials capable of forming stable covalent bonds and complex structures, making them a pivotal development in carbon-based technological advancements.