1. Synthesis of water dispersible boron core silica shell (B@SiO2) nanoparticles
- Author
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Yulia Eygeris, Zhe Gao, Hamidreza Ghandehari, Ilya Zharov, and Nathan I. Walton
- Subjects
Fluorophore ,Materials science ,Dispersity ,Shell (structure) ,chemistry.chemical_element ,Nanoparticle ,Bioengineering ,Core (manufacturing) ,02 engineering and technology ,General Chemistry ,010402 general chemistry ,021001 nanoscience & nanotechnology ,Condensed Matter Physics ,01 natural sciences ,Atomic and Molecular Physics, and Optics ,0104 chemical sciences ,chemistry.chemical_compound ,Hydrolysis ,chemistry ,Chemical engineering ,Modeling and Simulation ,Triethoxysilane ,General Materials Science ,0210 nano-technology ,Boron - Abstract
Water dispersible boron nanoparticles have great potential as materials for boron neutron capture therapy of cancer and magnetic resonance imaging, if they are prepared on a large scale with uniform size and shape and hydrophilic modifiable surface. We report the first method to prepare spherical, monodisperse, water dispersible boron core silica shell nanoparticles (B@SiO2 NPs) suitable for aforementioned biomedical applications. In this method, 40 nm elemental boron nanoparticles, easily prepared by mechanical milling and carrying 10-undecenoic acid surface ligands, are hydrosilylated using triethoxysilane, followed by base-catalyzed hydrolysis of tetraethoxysilane, which forms a 10-nm silica shell around the boron core. This simple two-step process converts irregularly shaped hydrophobic boron particles into the spherically shaped uniform nanoparticles. The B@SiO2 NPs are dispersible in water and the silica shell surface can be modified with primary amines that allow for the attachment of a fluorophore and, potentially, of targeting moieties.
- Published
- 2018
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