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Carbon dots with tissue engineering and regenerative medicine applications

Nima Farshidfar, Saba Fooladi, Mohammad Hadi Nematollahi, Siavash Iravani

2023RSC Advances48 citationsDOIOpen Access PDF

Abstract

, amino, hydroxyl, and carboxyl), high stability, and electron mobility have been broadly investigated in nano- and biomedicine. In addition, the controlled architecture, tunable fluorescence emission/excitation, light-emitting potential, high photostability, high water solubility, low cytotoxicity, and biodegradability make these carbon-based nanomaterials suitable for tissue engineering and regenerative medicine (TE-RM) purposes. However, there are still limited pre- and clinical assessments, because of some important challenges such as the scaffold inconsistency and non-biodegradability in addition to the lack of non-invasive methods to monitor tissue regeneration after implantation. In addition, the eco-friendly synthesis of CDs exhibited some important advantages such as environmentally friendly properties, low cost, and simplicity compared to the conventional synthesis techniques. Several CD-based nanosystems have been designed with stable photoluminescence, high-resolution imaging of live cells, excellent biocompatibility, fluorescence properties, and low cytotoxicity, which make them promising candidates for TE-RM purposes. Combining attractive fluorescence properties, CDs have shown great potential for cell culture and other biomedical applications. Herein, recent advancements and new discoveries of CDs in TE-RM are considered, focusing on challenges and future perspectives.

Topics & Concepts

Regenerative medicineNanotechnologyTissue engineeringCarbon fibersEngineering ethicsEngineeringMaterials scienceBiomedical engineeringBiologyStem cellCell biologyComposite materialComposite numberCarbon and Quantum Dots ApplicationsGraphene and Nanomaterials ApplicationsNanocluster Synthesis and Applications
Carbon dots with tissue engineering and regenerative medicine applications | Litcius