the effect of surface functionalization upon characteristics and biological interactions of cobalt-based nanoparticles

Aim and background: cobalt-based nanoparticles (cbnps) have recently received great attention in biomedical studies; however, the possible biotoxicity of these nanoparticles (nps) has remained a foremost concern that should be addressed. as surface functionalization is one of the helpful proposed solutions, we aimed to apply lipoamino acids (laas) as a coating agent to improve biocompatibility. methods: cobalt oxide, cobalt ferrite, and iron oxide nanoparticles (ions) were synthesized with and without 2-amino-hexadecanoic acid coating to assess the impacts of laa coating on characteristics and biocompatibility of cbnps in human cells and compare with ions, a widely used magnetic nps in biomedicine. antibacterial activities of nps were evaluated against four gram-negative and gram-positive bacteria species to assess their biointerface interaction with prokaryotic cells. in addition, the antibacterial activities of synthesized nps were compared to silver nps, one of the widely used antimicrobial nps and standard antibiotics (ampicillin). the structural characteristics properties of nps were analyzed using tem, fe-sem, eds, ftir, xrd, and vsm. these nps exhibited sphere-like to polygon-like morphology with desirable mean size. results and discussion: cbnps displayed dose-dependent cytotoxicity and antimicrobial activities against human cell lines and all tested microbial species, as well as more cytotoxicity and bacterial inhibition compared to ions. besides, the results revealed that laa coating could significantly improve the biocompatibility and antibacterial activity of nps while impacting magnetic properties. conclusion: it seems that surface functionalization could provide more potent tools for bioapplications with improving biocompatibility and bacterial inhibition of cbnps, though; further studies are needed in this regard.