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Synthesis of Nanosized Carbonated Hydroxyapatite under Microwave Irradiation
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In order to solve the problems on synthesizing carbonated hydroxyapatites (CHA) by the
conventional heating precipitation method, such as long reaction and large particle size, poor
crystallinity of CHA etc, the nanosized CHA particles have been synthesized by microwave heating
method using phosphoric acid (H3PO4), calcium hydroxide (Ca(OH)2) and calcium carbonate
(CaCO3 ) as starting materials in the present paper. The influences of power level and time of
microwave irradiation on synthesis of CHA have been investigated. The X-ray diffraction (XRD)
analysis has indicated that microwave heating will reduce CHA crystallization time and improve
crystallinity of CHA. Scanning electron microscope (SEM) analysis has showed that CHA particles
are of rod like morphology with about 60nm width and 200nm length respectively. Infrared
spectroscopy (IR) analysis has confirmed the B-type CHA precipitate can be formed under
microwave irradiation. The microwave irradiation plays an important role to promote the reaction
and the synthesis of nanosized CHA particles.
Trans Tech Publications, Ltd.
Title: Synthesis of Nanosized Carbonated Hydroxyapatite under Microwave Irradiation
Description:
In order to solve the problems on synthesizing carbonated hydroxyapatites (CHA) by the
conventional heating precipitation method, such as long reaction and large particle size, poor
crystallinity of CHA etc, the nanosized CHA particles have been synthesized by microwave heating
method using phosphoric acid (H3PO4), calcium hydroxide (Ca(OH)2) and calcium carbonate
(CaCO3 ) as starting materials in the present paper.
The influences of power level and time of
microwave irradiation on synthesis of CHA have been investigated.
The X-ray diffraction (XRD)
analysis has indicated that microwave heating will reduce CHA crystallization time and improve
crystallinity of CHA.
Scanning electron microscope (SEM) analysis has showed that CHA particles
are of rod like morphology with about 60nm width and 200nm length respectively.
Infrared
spectroscopy (IR) analysis has confirmed the B-type CHA precipitate can be formed under
microwave irradiation.
The microwave irradiation plays an important role to promote the reaction
and the synthesis of nanosized CHA particles.
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