抄録
New syntheses of calcium phosphate ceramics and its composite materials are studied. The properties of the developed materials are from bioactive properties for medical applications to bio-functional integration for advanced applications. The newly developed syntheses; mechanochemical synthesis, coatings with interlayer forming, hydrothermal synthesis with organic molecules, phosphorylation and partially hydrolysis, and mesopores coatings into hyper structure formation, templating of macromolecules into ordered structure, are based on low energy and with conscious biological structure formation. Here the development from bioactive to biofunctional integration are descried as follow as high strength calcium phosphate ceramics prepared using mechanochemical synthesized fine powders, calcium phosphate coating on high strength materials, estimation of biocompatibility of bioceramics by tissue culture method, research on water polluted water, morphology control of HAp, stimulation of calcium phosphate growth on polymeric substrate and highly oriented collagen fibers and apatite composite materials through biomimetic route, and biointegaration for multifunctional materials..
