Carbon nanomaterials have rapidly risen as innovative tools in the field of tissue engineering, owing to their exceptional mechanical, electrical, and biocompatible properties. Graphene, carbon nanotubes, carbon nanodots, and their derivatives are at the forefront of research, demonstrating potential for mimicking the extracellular matrix and providing essential structural and signaling cues to cells. These materials also promise to revolutionize engineered tissues by enhancing their ability to monitor and adapt to physiological changes in real-time. Despite marked advances, significant questions remain regarding their long-term interactions with biological tissues, the mechanisms governing cellular responses, and the pathways to successful clinical adoption and regulatory approval.
This Research Topic aims to spotlight the latest progress, ongoing challenges, and future opportunities surrounding carbon nanomaterials in tissue engineering. The central goals include showcasing novel methodologies for synthesizing, functionalizing, and characterizing carbon-based nanomaterials, as well as exploring their wide-ranging biomedical applications. By drawing together advances from across the field, we seek to address critical questions related to biocompatibility, immunotoxicity, and cellular integration, and to test hypotheses that could refine scaffold designs and innovative fabrication methods for applications such as bioprinting, neural repair, wound healing, and cardiovascular regeneration.
The scope of this Research Topic is centered on the application of carbon nanomaterials in tissue engineering, with a particular focus on translational research, clinical readiness, and regulatory pathways. To gather further insights, we welcome articles addressing, but not limited to, the following themes:
• Advanced scaffold design using carbon nanomaterials • Cellular interactions, biocompatibility, and immune responses • Smart and stimuli-responsive nanomaterials for sensing and adaptive systems • Bioprinting of nanomaterials • Application-specific platforms: cardiovascular, neural, and wound healing constructs • Translational, regulatory, and clinical perspectives for carbon nanomaterials in regenerative medicine
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This Research Topic accepts the following article types, unless otherwise specified in the Research Topic description:
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Article types
This Research Topic accepts the following article types, unless otherwise specified in the Research Topic description:
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