Carbon dot nanomaterials (CDNs) have emerged as a promising class of nanomaterials with a broad spectrum of applications in various fields. These highly fluorescent nanoparticles exhibit unique optical, electronic, and catalytic properties that originate from their intrinsic structure and surface chemistry. These tunable size, shape, and compo

Metal-organic frameworks (MOFs) demonstrate a large surface area and tunable porosity, making them suitable candidates for nanoparticle delivery. Graphene, with its exceptional mechanical strength and conductivity, offers synergistic advantages. The combination of MOFs and graphene in composite systems creates a platform for enhanced nanoparticle

Metal-organic framework (MOF)-graphene composites are emerging as a potential platform for enhancing nanoparticle dispersion and catalytic efficiency. The intrinsic structural properties of MOFs, characterized by their high surface area and tunable pore size, coupled with the exceptional electrical properties of graphene, create a synergistic effec