Aim: The design of new hybrid nanoplatforms (HNPs) through the innovative and eco-friendly use of tannic acid (TA) for the synthesis and stabilization of the nanoplatforms. Materials & methods: The size, morphology, composition and magnetic and plasmonic properties of HNPs were investigated together with their ability to generate heat under laser irradiation and the hemotoxicity to explore their potential use for biomedical applications. Results & conclusion: The use of TA allowed the synthesis of the HNPs by adopting a simple and green method. The HNPs preserved the peculiar properties of both magnetic and plasmonic nanoparticles and did not show any hemotoxic effect.The aim of this research was to prepare new nanoparticles (called nanoplatforms) made from two parts: a magnetic core and the addition of gold particles. These particles can be used for cancer treatment because, when stimulated by light, they are able to release heat, which can kill cancer cells. In particular, in this work, we investigated the preparation of these particles using green methods, without the use of toxic reagents. The obtained nanoparticles were studied to investigate their size, shape, composition, magnetic properties, ability to generate heat and possible toxic effect toward blood cells. The results show that these particles can be produced with green methods, release heat and are not toxic.
Tannic-acid-mediated synthesis and characterization of magnetite-gold nanoplatforms for photothermal therapy / Miola, M.; Multari, C.; Kostevsek, N.; Gerbaldo, R.; Laviano, F.; Verne, Enrica.. - In: NANOMEDICINE. - ISSN 1748-6963. - 18:20(2023), pp. 1331-1342. [10.2217/nnm-2023-0134]
Tannic-acid-mediated synthesis and characterization of magnetite-gold nanoplatforms for photothermal therapy
Miola M.;Multari C.;Gerbaldo R.;Laviano F.;Verne Enrica.
2023
Abstract
Aim: The design of new hybrid nanoplatforms (HNPs) through the innovative and eco-friendly use of tannic acid (TA) for the synthesis and stabilization of the nanoplatforms. Materials & methods: The size, morphology, composition and magnetic and plasmonic properties of HNPs were investigated together with their ability to generate heat under laser irradiation and the hemotoxicity to explore their potential use for biomedical applications. Results & conclusion: The use of TA allowed the synthesis of the HNPs by adopting a simple and green method. The HNPs preserved the peculiar properties of both magnetic and plasmonic nanoparticles and did not show any hemotoxic effect.The aim of this research was to prepare new nanoparticles (called nanoplatforms) made from two parts: a magnetic core and the addition of gold particles. These particles can be used for cancer treatment because, when stimulated by light, they are able to release heat, which can kill cancer cells. In particular, in this work, we investigated the preparation of these particles using green methods, without the use of toxic reagents. The obtained nanoparticles were studied to investigate their size, shape, composition, magnetic properties, ability to generate heat and possible toxic effect toward blood cells. The results show that these particles can be produced with green methods, release heat and are not toxic.File | Dimensione | Formato | |
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https://hdl.handle.net/11583/2988867