A sol-gel derived bioactive fibrous mesh

## Abstract The ability of bioactive glasses to form a bond to living bone and also to stimulate bone‐cell proliferation depends on the chemical composition and on the surface texture of the glasses. In this work, the differences in physical properties between the melt‐derived 45S5 and sol‐gel–deri

## Abstract Effects of powder type, particle size (5–20 μm; 90–300 μm; 90–710 μm), and type of dissolution medium on the dissolution behavior of bioactive glasses were investigated __in vitro__ using melt‐derived 45S5 and sol‐gel derived 58S bioactive glass powders. Dissolution studies were perform

## Abstract The aim of this work was to evaluate the antibacterial effect of bioactive glass nanopowders. The 58S, 63S, and 72S compositions were prepared via the sol‐gel technique. Characterization techniques such as X‐ray diffraction, transmission electron microscopy (TEM), Zetasizer, and X‐ray f

## Abstract Bioactive glass material of the type CaOP~2~O~5~SiO~2~ZnO was obtained by the sol‐gel processing method. This material was produced both in powder and in disks form by compression of the powder. The obtained material was characterized by X‐ray powder diffraction (XRD), Fourier transf

## Abstract Extended X‐ray absorption fine structure spectroscopy and X‐ray absorption near edge structure, X‐ray fluorescence spectroscopy, and X‐ray powder diffraction have been used to study the local calcium environment in four sol–gel‐derived bioactive calcium silicate glasses of the general f

## Abstract Zinc is an essential trace element which may be effective in promoting hard tissue healing. Glasses in the SiO~2~‐CaO‐ZnO system were synthesized via sol–gel methods. Using a constant silica content (70 mol %), the ratio of Ca to Zn was varied (1.5, 3.5, or 6.5), as was the stabilizatio