In a typical one-pot synthesis procedure, hybrid organosilica fibers were grown by templating the cocondensation between TEOS and selected organotrialkoxysilanes (20 mol% of phenyltriethoxysilane, PTES, or aminopropyltriethoxysilane, APTES) through the use of DDOA (2,3-bis(n-decyloxy)anthracene) and DUOP (2,3-bis(n-undecyloxy)phenazine) organogelators in a compatible solvent (ethanol or acetonitrile, respectively). Interestingly, the successful replication of organogelator fibrous assemblies was accomplished working at low pH values (ca. 2-3) in acid catalysed conditions. By SEM and TEM characterizations the hybrid organosilicas were seen to consist of submicronic fibers (100-200 nm) aggregated into highly anisotropic fibrous bundles (1-15 mm thick). In addition, molecular and/or supramolecular interactions between the organogelator and the growing organosiloxane network proved to have an important effect on fiber thickness and on fiber aggregation (intertwined/co-aligned, lamellar-or ribbon-like fibrous bundles). After removal of the organogelator (by calcination or by Soxhlet washing), the fibrous morphologies were perfectly conserved, and the presence of phenyl and amine moieties was confirmed by FTIR spectroscopy and also by elemental chemical analysis. The formation of a well-condensed and interconnected organosiloxane network was proven by 29 Si MAS NMR spectroscopy. Moreover, the accessibility and reactivity of the grafted amine groups were also corroborated by performing a simple post-functionalization heterogeneous reaction with diluted benzaldehyde.
Industrially available blue ceramic pigments, with the exception of vanadium-zircon blue, (Zr,V)SiO 4 , contain Co. To minimise the use of toxic and scarce cobalt, while also maintaining an intense blue colour, the performance as blue ceramic pigments of both Co 2+ -Zn 2 SiO 4 (willemite) and Zn 2+ -Co 2 SiO 4 (olivine) solid solutions was studied. The addition of cobalt in the willemite lattice was minimised. A wide range of compositions, Co x Zn 22x SiO 4 (x = 2, 1.95, 1.5, 1, 0.9, 0.5, 0.05 and 0), were prepared and characterised by X-ray diffraction, lattice parameter measurements, UV-VIS-NIR spectroscopy, CIE-L*a*b* colour measurements and electronic microscopy (SEM/EDAX). The results show that an intense and more blue ceramic pigment is obtained based on the willemite lattice, with an optimised, low Co content, ranging from 25 mol% Co (Co 0.5 Zn 1.5 SiO 4 ) to 2.5 mol% Co (Co 0.05 Zn 1.95 SiO 4 ). This last composition (with only 2.5 mol% Co) exhibits the best blue hue once enamelled (b* = 239), though it is also considerably lighter (L* = 57).
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