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Macromolecule loading into spherical, elliptical, star-like and cubic calcium carbonate carriers

(2014) CHEMPHYSCHEM. 15(13). p.2817-2822
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Center for nano- and biophotonics (NB-Photonics)
Abstract
We fabricated calcium carbonate particles with spherical, elliptical, star-like and cubical morphologies by varying relative salt concentrations and adding ethylene glycol as a solvent to slow down the rate of particle formation. The loading capacity of particles of different isotropic (spherical and cubical) and anisotropic (elliptical and star-like) geometries is investigated, and the surface area of such carriers is analysed. Potential applications of such drug delivery carriers are highlighted.
Keywords
calcium, adsorption, drug delivery, nanoparticles, solid-state structures, POLYELECTROLYTE MICROCAPSULES, DRUG-DELIVERY, GOLD NANOPARTICLES, BLOCK-COPOLYMER, PARTICLES, TEMPLATES, CAPSULES, VATERITE, SUPERSTRUCTURES, HYDROXYAPATITE

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Citation

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Chicago
Parakhonskiy, Bogdan, Alexey M Yashchenok, Senem Donatan, Dmitry V Volodkin, Francesco Tessarolo, Renzo Antolini, Helmuth Möhwald, and Andre Skirtach. 2014. “Macromolecule Loading into Spherical, Elliptical, Star-like and Cubic Calcium Carbonate Carriers.” Chemphyschem 15 (13): 2817–2822.
APA
Parakhonskiy, B., Yashchenok, A. M., Donatan, S., Volodkin, D. V., Tessarolo, F., Antolini, R., Möhwald, H., et al. (2014). Macromolecule loading into spherical, elliptical, star-like and cubic calcium carbonate carriers. CHEMPHYSCHEM, 15(13), 2817–2822.
Vancouver
1.
Parakhonskiy B, Yashchenok AM, Donatan S, Volodkin DV, Tessarolo F, Antolini R, et al. Macromolecule loading into spherical, elliptical, star-like and cubic calcium carbonate carriers. CHEMPHYSCHEM. 2014;15(13):2817–22.
MLA
Parakhonskiy, Bogdan, Alexey M Yashchenok, Senem Donatan, et al. “Macromolecule Loading into Spherical, Elliptical, Star-like and Cubic Calcium Carbonate Carriers.” CHEMPHYSCHEM 15.13 (2014): 2817–2822. Print.
@article{5799892,
  abstract     = {We fabricated calcium carbonate particles with spherical, elliptical, star-like and cubical morphologies by varying relative salt concentrations and adding ethylene glycol as a solvent to slow down the rate of particle formation. The loading capacity of particles of different isotropic (spherical and cubical) and anisotropic (elliptical and star-like) geometries is investigated, and the surface area of such carriers is analysed. Potential applications of such drug delivery carriers are highlighted.},
  author       = {Parakhonskiy, Bogdan and Yashchenok, Alexey M and Donatan, Senem and Volodkin, Dmitry V and Tessarolo, Francesco and Antolini, Renzo and M{\"o}hwald, Helmuth and Skirtach, Andre},
  issn         = {1439-4235},
  journal      = {CHEMPHYSCHEM},
  keyword      = {calcium,adsorption,drug delivery,nanoparticles,solid-state structures,POLYELECTROLYTE MICROCAPSULES,DRUG-DELIVERY,GOLD NANOPARTICLES,BLOCK-COPOLYMER,PARTICLES,TEMPLATES,CAPSULES,VATERITE,SUPERSTRUCTURES,HYDROXYAPATITE},
  language     = {eng},
  number       = {13},
  pages        = {2817--2822},
  title        = {Macromolecule loading into spherical, elliptical, star-like and cubic calcium carbonate carriers},
  url          = {http://dx.doi.org/10.1002/cphc.201402136},
  volume       = {15},
  year         = {2014},
}

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