Magnesium (Mg)-based composites, as one group of the biodegradable materials, enjoy high biodegradability, biocompatibility, and non-toxicity making them a great option for implant applications. In this paper, by the semi powder metallurgy (SPM) technique, the graphene nano-platelets (GNPs) and carbon nanotubes (CNTs) nanosystems, as reinforcements, are dispersed homogenously in the Mg-Zn (MZ) alloy matrix. Subsequently, the composite is successfully produced employing the spark plasma sintering (SPS) process. Compared to the unreinforced MZ sample, GNPs + CNTs mixture reinforced composite exhibits higher compressive strength (∼75%). Notably, adding only 1 wt % of GNPs + CNTs to the MZ matrix reduces the rate of the degradation in the Mg-based composite by almost 2- fold. Examining the antibacterial activity demonstrate that the incorporation of GNPs + CNTs into the Mg-based matrix is likely to prevent the infiltration and development of Staphylococcus aureus (S. aureus) and Escherichia coli (E. coli) significantly. While the MTT with 0.5 and 1 wt % GNPs + CNTs does not demonstrate cytotoxicity to the MG63 cells, the excessive GNPs + CNTs results in a certain degree of poisonousness. In general, the findings of the present research attest to the viable application of MZ/GNPs + CNTs composites for implants as well as bone infection treatment.
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Article Synopsis
- - This article discusses the potential of metallic glasses, which have unique structures lacking defects, making them strong, tough, and corrosion-resistant, for biomedical applications like implants.
- - It highlights how Ti-based metallic glasses are used for durable implants like bone plates, while Mg-based types are favored for biodegradable options like stents due to their ability to degrade in the body.
- - The article identifies challenges such as the stiffness of Ti-based glasses and rapid degradation of Mg-based glasses, suggesting solutions like introducing porous structures, improving surface bioactivity, and enhancing corrosion resistance to advance their use in medicine.
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