To enhance surface area of the calcium aluminate, some other prepare methods are developed such as sol gel [4], hydrothermal and
coprecipitation [12, 13].
Doping strategy via chemistry solution using
coprecipitation followed by microwave hydrothermal method (MWH) may provide well-controlled ways to modify the structures, morphologies, particle sizes, and surface features by means of adaptation on the compositions of the crystals [2, 8, 14, 15].
Preparation of inclusion complex by
coprecipitationAt present, many methods have been devoted to addressing synthesis obstacles, such as the
coprecipitation method, spray drying method, high temperature solid state reaction, and combustion method.
In such important works [6-8] where rare-earth doped La[F.sub.3] NPs demonstrate their efficiency in biomedical application,
coprecipitation method of synthesis of NPs is used.
There are many methods available for synthesis of Sn[O.sub.2] nanomaterials which include sonochemical method [10], solvothermal [11], sol gel [12], hydrothermal [13], microwave technique [14], and
coprecipitation method [15].
In the present work, we report the one-pot homogeneous
coprecipitation method for the synthesis of a set of Ru-doped ZnO oxides with different Ru contents (0.5, 1, and 3wt% of Ru[O.sub.2]).
In another study, we obtained [Gd.sup.3+]-doped (4.2wt.%) [gamma]-[Fe.sub.2][O.sub.3] MNPs of 12 nm by a
coprecipitation method [25].
Gold catalysts prepared by
coprecipitation for low-temperature oxidation of hydrogen and of carbon monoxide.
In this study, MNPs were synthesized using the
coprecipitation method with a mean particle size of 34 nm and a saturation magnetization of 62 nm.