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W4309356118 abstract "The development of new biomaterial schemes offers a bright future for translating nanomaterials for personalized biomedicine into effective clinical treatments for patients. In contrast to conventional mesoporous silica, mesoporous carbon biomaterials combine the advantages of a mesoporous nanostructure and carbonaceous configuration, presenting superior potentials paralleled by other carbon-based nanomaterials such as fullerenes and carbon nanotubes. Graphene and its spinoffs include graphene oxide, nanodiamonds, and carbon-based quantum dots as well. These constituents have sparked considerable interest across a wide range of fields, including biological applications, because of their outstanding operational ranges and impressive mechanical, electrical, thermal, optical, and chemical capabilities. Scholars in the field of nanomedicine have long been interested in mesoporous carbon nanoparticles (MCNs). The near-infrared laser absorption enhanced by MCNs also suggests that light can be effectively translated into heat for anticancer therapy. When combined with photothermal treatment and synergistic therapies such as fluorescence labeling of tumor cells and bioadsorption of pathogenic toxic components, this technology thrives for on-demand drug release as well as photothermal therapy and synergistic therapies. Graphene and its derivatives have been proposed as bioimaging agents in numerous researches. Because of the inherent two-photon fluorescence property of carbon-based nanomaterials, this application is advanced and permits the use of deep tissue imaging agents for tumor diagnosis in the near-infrared II wavelength area. These MCNs could pave the way for a new generation of nanodevices, according to our predictions. Solicitations based on their specific nanostructure, arrangement, and biocompatibility are used for transmembrane and intracellular delivery. As a final point, possible obstacles and stances for future advances in biological sectors of mesoporous carbon must be given consideration." @default.
W4309356118 created "2022-11-26" @default.
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W4309356118 date "2022-11-18" @default.
W4309356118 modified "2023-10-16" @default.
W4309356118 title "Biomass‐Derived Mesoporous Carbon Nanomaterials for Drug Delivery and Imaging Applications" @default.
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W4309356118 doi "https://doi.org/10.1002/9783527832903.ch6" @default.
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