Abstract
Synthesis and characterization of sodium-carbon apatite nano-crystals by chemical sedimentation method
Highlights
Introduction contents of carbonateattempts have been doneThe biological hydroxyapatite is the most important to control morphology and the chemical compound of component, which forms dental enamel, bone, and hydroxyapatite with the aim of providing a material that mineral tissues of body
The cycle, a lot of effort have been done in producing nano- importance of the presence of carbonate in the biological crystal carbon apatite in the last two decades
From The XRD and FTIR results, it could be observed that synthesized crystals were all Na-CHA ((LeGeros, 1994; Doi et al, 1998; Roy et al, 1974; Merry et al, 1998; Fang et al, 1992; Vaidhyanathan & Rao, 1996; Sivakumar et al, 1996; Suchanek et al, 2002; Tadic et al, 2002)
Summary
Introduction contents of carbonateattempts have been doneThe biological hydroxyapatite is the most important to control morphology and the chemical compound of component, which forms dental enamel, bone, and hydroxyapatite with the aim of providing a material that mineral tissues of body. From structural points of view, has the both function of bones resemble and low biological apatite is nano-size, with low crystallinity, which crystallization (LeGeros,1965; LeGeros et average dimensions, ranging from 25-150 nm in width al.,1967;Okazaki et al.,1981; Vallet-Regi et al, 1994; and length (LeGeros, 1994).
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