Bajnóczi, Eva
- Department of Molecular Sciences, Swedish University of Agricultural Sciences
Research article2018Peer reviewed
Sun, Rui; Zhang, Peng; Bajnocz, Eva G.; Neagu, Alexandra; Tai, Cheuk-Wai; Persson, Ingmar; Stromme, Maria; Cheung, Ocean
Amorphous calcium carbonate (ACC), with the highest reported specific surface area of all current forms of calcium carbonate (over 350 m(2) g(-1)), was synthesized using a surfactant-free, one-pot method. Electron microscopy, helium pycnometry, and nitrogen sorption analysis revealed that this highly mesoporous ACC, with a pore volume of similar to 0.86 cm(3) g(-1) and a pore-size distribution centered at 8-9 nm, is constructed from aggregated ACC nanoparticles with an estimated average diameter of 7.3 nm. The porous ACC remained amorphous and retained its high porosity for over 3 weeks under semi-air-tight storage conditions. Powder X-ray diffraction, large-angle X-ray scattering, infrared spectroscopy, and electron diffraction exposed that the porous ACC did not resemble any of the known CaCO3 structures. The atomic order of porous ACC diminished at interatomic distances over 8 angstrom. Porous ACC was evaluated as a potential drug carrier of poorly soluble substances in vitro. Itraconazole and celecoxib remained stable in their amorphous forms within the pores of the material. Drug release rates were significantly enhanced for both drugs (up to 65 times the dissolution rates for the crystalline forms), and supersaturation release of celecoxib was also demonstrated. Citric acid was used to enhance the stability of the ACC nanoparticles within the aggregates, which increased the surface area of the material to over 600 m(2) g(-1). This porous ACC has potential for use in various applications where surface area is important, including adsorption, catalysis, medication, and bone regeneration.
amorphous calcium carbonate; large-angle X-ray scattering; porous materials; drug delivery; nanoparticles
ACS Applied Materials and Interfaces
2018, Volume: 10, number: 25, pages: 21556-21564 Publisher: AMER CHEMICAL SOC
Materials Chemistry
DOI: https://doi.org/10.1021/acsami.8b03939
https://res.slu.se/id/publ/96092