Biosafety and Toxicity Evaluation of Carbon Nanomaterials

Mathew, Aleena Ann; Varghese, Meera; Balachandran, Manoj

doi:10.1007/978-3-031-28263-8_14

Cited by 5 publications

(1 citation statement)

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“…Compared to metal-based nanoparticles such as silver or copper, which tend to show cytotoxic effects, [146] carbon-based nanoparticles generally show lower toxicity. [147] Furthermore, carbon-based materials have emerged as a critical component in developing antibacterial applications. The mechanisms of carbon nanoparticles' antibacterial action are diverse, primarily disrupting bacterial cell walls through interactions that induce cell death.…”

Section: Inorganic Nanomaterialsmentioning

confidence: 99%

Light‐Assisted 3D‐Printed Hydrogels for Antibacterial Applications

Zhang,

Nasar,

Huang

et al. 2024

Small Science

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Light‐assisted 3D printing technology, which uses a light source to solidify a photopolymerizable prepolymer solution, has shown great potential in the development of antibacterial hydrogels with high‐resolution, specific features and functionalities. 3D‐printed hydrogels with customized structures and antibacterial functions are widely used in tissue engineering, regenerative medicine, wound healing, and implants to advance the modeling and treatment of diseases. In the current review, an overview of light‐assisted 3D printing technologies is first provided for the development of antibacterial hydrogels. Novel strategies involving the integration of inorganic nanomaterials, antibiotics, and functional polymers into 3D‐printed hydrogels for the enhancement of antibacterial effects are then discussed. Finally, the perspective of advanced design using artificial intelligence and machine learning is proposed, providing a comprehensive yet succinct examination of 3D‐printed hydrogels for antibacterial purposes.

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Section: Inorganic Nanomaterialsmentioning

confidence: 99%