Scanning pulsed laser ablation in liquids: An alternative route to obtaining biocompatible YbFe nanoparticles as multiplatform contrast agents for combined MRI and CT imaging. Issue 6 (15th March 2023)
- Record Type:
- Journal Article
- Title:
- Scanning pulsed laser ablation in liquids: An alternative route to obtaining biocompatible YbFe nanoparticles as multiplatform contrast agents for combined MRI and CT imaging. Issue 6 (15th March 2023)
- Main Title:
- Scanning pulsed laser ablation in liquids: An alternative route to obtaining biocompatible YbFe nanoparticles as multiplatform contrast agents for combined MRI and CT imaging
- Authors:
- Felix, Eduardo
Mánuel, José M.
Litrán, Rocio
Rodríguez, Miguel A.
Román-Sánchez, Sara
Lahoz, Ruth
Natividad, Eva
Fernández-Ponce, Cecilia
Garcia-Cozar, Francisco
Llaguno-Munive, Monserrat
Abasolo, Ibane
Yeste, Pilar
Pfaff, Cathrin
Kriwet, Jürgen
Bomati-Miguel, Oscar - Abstract:
- Abstract: Ytterbium ferrites are being used in many promising applications, such as visible-light photocatalysis, solar cells, magnetooptic devices, electro-magnetic equipment, etc., due to their fantastic ferroelectric and ferromagnetic properties. However, despite their good magnetic and radiopaque features, the use of ytterbium ferrites as multiplatform contrast agents in magnetic resonance imaging (MRI) and X-ray computed tomography (CT) is still under-developed. This is mainly due to difficulties in obtaining stable and biocompatible aqueous colloidal dispersions of ytterbium ferrite nanoparticles. In order to overcome this limitation, this work explores an eco-friendly method to directly synthesize such dispersions by liquid-assisted pulsed laser ablation of ytterbium ferrite massive targets. First, orthorhombic bulk YbFeO3 targets were obtained by a reaction-sintering method. Then, colloidal dispersions of nanoparticles were produced directly in both distilled water and ethanol by irradiating the bulk YbFeO3 targets with high-power infrared nanosecond lasers pulses. A battery of techniques has been used to characterize the as synthesized YbFeO3 targets and colloidal dispersions of YbFe nanoparticles to determine their composition, structure, magnetic properties, X-ray attenuation potentials, and colloidal properties. Moreover, the biocompatibility of the systems was also analysed by MTT cell viability assay. Results indicated that the use of distilled water asAbstract: Ytterbium ferrites are being used in many promising applications, such as visible-light photocatalysis, solar cells, magnetooptic devices, electro-magnetic equipment, etc., due to their fantastic ferroelectric and ferromagnetic properties. However, despite their good magnetic and radiopaque features, the use of ytterbium ferrites as multiplatform contrast agents in magnetic resonance imaging (MRI) and X-ray computed tomography (CT) is still under-developed. This is mainly due to difficulties in obtaining stable and biocompatible aqueous colloidal dispersions of ytterbium ferrite nanoparticles. In order to overcome this limitation, this work explores an eco-friendly method to directly synthesize such dispersions by liquid-assisted pulsed laser ablation of ytterbium ferrite massive targets. First, orthorhombic bulk YbFeO3 targets were obtained by a reaction-sintering method. Then, colloidal dispersions of nanoparticles were produced directly in both distilled water and ethanol by irradiating the bulk YbFeO3 targets with high-power infrared nanosecond lasers pulses. A battery of techniques has been used to characterize the as synthesized YbFeO3 targets and colloidal dispersions of YbFe nanoparticles to determine their composition, structure, magnetic properties, X-ray attenuation potentials, and colloidal properties. Moreover, the biocompatibility of the systems was also analysed by MTT cell viability assay. Results indicated that the use of distilled water as ablation medium yields colloidal dispersions consisted mainly of paramagnetic ytterbium ferrite nanoparticles. Contrarily, the use of ethanol as solvent leads to colloidal dispersions of polycrystalline nanoparticles with both ferromagnetic and paramagnetic behaviour, due to the coexistence, in each nanoparticle, of ytterbium ferrite, ytterbium oxide, and iron oxide crystalline phases. Both colloidal dispersions exhibit also high biocompatibility and suitable X-ray attenuation properties. Moreover, they show bio-safe hydrodynamic sizes (lower than 200 nm) with acceptable overall hydrodynamic polydispersity index values (under 0.4), being stable in water for several weeks. These results pave the way for the future evaluation of Yb–Fe based nanoparticles as multiplatform contrast agents in multimodal MRI and CT imaging. Graphical abstract: Image 1 … (more)
- Is Part Of:
- Ceramics international. Volume 49:Issue 6(2023)
- Journal:
- Ceramics international
- Issue:
- Volume 49:Issue 6(2023)
- Issue Display:
- Volume 49, Issue 6 (2023)
- Year:
- 2023
- Volume:
- 49
- Issue:
- 6
- Issue Sort Value:
- 2023-0049-0006-0000
- Page Start:
- 9324
- Page End:
- 9337
- Publication Date:
- 2023-03-15
- Subjects:
- Pulsed laser ablation in liquids -- Biocompatible YbFe nanoparticles -- Multiplatform contrast agents -- X-ray computed tomography
LA-PLA Pulsed laser ablation in liquids -- MCAs Multiplatform contrast agents -- CT X-ray computed tomography -- YbFe Nps Biocompatible YbFe nanoparticles
Ceramics -- Periodicals
Céramique industrielle -- Périodiques
Ceramics
Periodicals
Electronic journals
666 - Journal URLs:
- http://www.sciencedirect.com/science/journal/02728842 ↗
http://www.elsevier.com/journals ↗ - DOI:
- 10.1016/j.ceramint.2022.11.099 ↗
- Languages:
- English
- ISSNs:
- 0272-8842
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- Legaldeposit
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