Laser-assisted one-pot fabrication of calcium phosphate-based submicrospheres with internally crystallized magnetite nanoparticles through chemical precipitation.

@article{Nakamura2015LaserassistedOF,
  title={Laser-assisted one-pot fabrication of calcium phosphate-based submicrospheres with internally crystallized magnetite nanoparticles through chemical precipitation.},
  author={Maki Nakamura and Ayako Oyane and Ikuko Sakamaki and Yoshie Ishikawa and Yoshiki Shimizu and Kenji Kawaguchi},
  journal={Physical chemistry chemical physics : PCCP},
  year={2015},
  volume={17 14},
  pages={
          8836-42
        }
}
In this paper, we have further developed our simple (one-pot) and rapid (short irradiation time) laser fabrication process of submicrometer spheres composed of amorphous calcium iron phosphate. In our previous process, laser irradiation was applied to a calcium phosphate (CaP) reaction mixture supplemented with ferric ions (Fe(3+)) as a light-absorbing agent. Because the intention of the present study was to fabricate magnetite-encapsulated CaP-based submicrometer spheres, ferrous ions (Fe(2… 
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11 Citations

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Citation Type

Structural Analysis of Calcium Phosphate-Based Submicrospheres with Internally-Crystallized Iron Oxide Nanoparticles Fabricated by a Laser-Assisted Precipitation Process
TLDR
Cross-sectional transmission electron microscopy analysis of the resulting IO–CaP submicrospheres revealed that they were heterogeneous in their internal nanostructures and could be categorized into two types, namely types A and B.
Physicochemical fabrication of antibacterial calcium phosphate submicrospheres with dispersed silver nanoparticles via coprecipitation and photoreduction under laser irradiation.
Facile one-pot fabrication of calcium phosphate-based composite nanoparticles as delivery and MRI contrast agents for macrophages.
Physicochemical fabrication of calcium phosphate-based thin layers and nanospheres using laser processing in solutions.
TLDR
The physicochemical process provides a new tool for fabricating CaP-based thin layers and nanospheres for biomedical applications and enables the simple and rapid fabrication of CaPs.
High-Purity Hybrid Organolead Halide Perovskite Nanoparticles Obtained by Pulsed-Laser Irradiation in Liquid.
TLDR
A novel one-step synthesis of organolead bromide perovskite nanocrystals based on pulsed-laser irradiation in a liquid environment (PLIL) to form a nanocomposite with single- and two-photon luminescence properties is presented.
Laser-Irradiation-Induced Melting and Reduction Reaction for the Formation of Pt-Based Bimetallic Alloy Particles in Liquids.
  • Y. Han, Shouliang Wu, +6 authors C. Liang
  • Materials Science
    Chemphyschem : a European journal of chemical physics and physical chemistry
  • 2017
TLDR
It is demonstrated that LML provides an optional route to prepare Pt-based bimetallic alloy particles with tunable size, components, and crystalline phase, which should have promising applications in biological and catalysis studies.
Synthesis of Calcium-Phosphate-Based Nanoparticles as Biocompatible and Biofunctional Element Blocks
TLDR
In this chapter, conventional and laser-assisted precipitation processes for the synthesis of CaP-based nanoparticles are described with a focus on recent studies, and both are simple, rapid, free of harmful additives, and capable of controlling the physicochemical and biological properties.
Laser Synthesis and Processing of Colloids: Fundamentals and Applications.
TLDR
Unscreened surface charge of LSPC-synthesized colloids is the key to achieving colloidal stability and high affinity to biomolecules as well as support materials, thereby enabling the fabrication of bioconjugates and heterogeneous catalysts.
Inclusion of supported gold nanoparticles into their semiconductor support.
TLDR
The results show how a nanoparticulate surface adsorbate can be included in the form of crystalline nanoparticles into the resolidified support matrix, demonstrated by using plasmonic nanoparticles and semiconductor microparticles as reference materials.
Synthesis of various 3D porous gold-based alloy nanostructures with branched shapes.
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