Spray Pyrolysis Preparation of Apatite-Composite Particles for Biological Application

Akiyoshi Osaka; Kanji Tsuru; H. Iida; Chikara Ohtsuki; Satoshi Hayakawa; Yoshinari Miura

doi:10.1007/BF02436918

Spray Pyrolysis Preparation of Apatite-Composite Particles for Biological Application

Akiyoshi Osaka, Kanji Tsuru, H. Iida, Chikara Ohtsuki, Satoshi Hayakawa, Yoshinari Miura

Research output: Contribution to journal › Article › peer-review

11 Citations (Scopus)

Abstract

Apatite derived by sol-gel routes through an amorphous state or derived biomimetically is likely to provide chemically and biologically active surfaces. Thus apatite or apatite-composite particles were prepared by spray-pyrolysis of several solutions as they were applicable to medical treatment. Calcium lactate and ammonium dihydrogen phosphate aqueous solutions stabilized with ethylenediaminetetraacetic acid were sprayed ultrasonically and pyrolysed at 600°C to yield amorphous particles of apatite while apatite-ferric oxide composite powders were prepared from the solutions of calcium lactate and ferric nitrate. Solutions of calcium nitrate and titanium ethoxide in 0.5 N HNO₃ were also spray-pyrolysed at 600°C to prepare calcium titanate and titanium oxide particles trapped on a Ti substrate. Apatite could biomimetically be developed on the calcium titanate particles when they were soaked in an acellular simulated body fluid.

Original language	English
Pages (from-to)	655-661
Number of pages	7
Journal	Journal of Sol-Gel Science and Technology
Volume	8
Issue number	1-3
DOIs	https://doi.org/10.1007/BF02436918
Publication status	Published - 1997
Externally published	Yes

All Science Journal Classification (ASJC) codes

Electronic, Optical and Magnetic Materials
Ceramics and Composites
Chemistry(all)
Biomaterials
Condensed Matter Physics
Materials Chemistry

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10.1007/BF02436918

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title = "Spray Pyrolysis Preparation of Apatite-Composite Particles for Biological Application",

abstract = "Apatite derived by sol-gel routes through an amorphous state or derived biomimetically is likely to provide chemically and biologically active surfaces. Thus apatite or apatite-composite particles were prepared by spray-pyrolysis of several solutions as they were applicable to medical treatment. Calcium lactate and ammonium dihydrogen phosphate aqueous solutions stabilized with ethylenediaminetetraacetic acid were sprayed ultrasonically and pyrolysed at 600°C to yield amorphous particles of apatite while apatite-ferric oxide composite powders were prepared from the solutions of calcium lactate and ferric nitrate. Solutions of calcium nitrate and titanium ethoxide in 0.5 N HNO3 were also spray-pyrolysed at 600°C to prepare calcium titanate and titanium oxide particles trapped on a Ti substrate. Apatite could biomimetically be developed on the calcium titanate particles when they were soaked in an acellular simulated body fluid.",

author = "Akiyoshi Osaka and Kanji Tsuru and H. Iida and Chikara Ohtsuki and Satoshi Hayakawa and Yoshinari Miura",

year = "1997",

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T1 - Spray Pyrolysis Preparation of Apatite-Composite Particles for Biological Application

AU - Osaka, Akiyoshi

AU - Tsuru, Kanji

AU - Iida, H.

AU - Ohtsuki, Chikara

AU - Hayakawa, Satoshi

AU - Miura, Yoshinari

PY - 1997

Y1 - 1997

N2 - Apatite derived by sol-gel routes through an amorphous state or derived biomimetically is likely to provide chemically and biologically active surfaces. Thus apatite or apatite-composite particles were prepared by spray-pyrolysis of several solutions as they were applicable to medical treatment. Calcium lactate and ammonium dihydrogen phosphate aqueous solutions stabilized with ethylenediaminetetraacetic acid were sprayed ultrasonically and pyrolysed at 600°C to yield amorphous particles of apatite while apatite-ferric oxide composite powders were prepared from the solutions of calcium lactate and ferric nitrate. Solutions of calcium nitrate and titanium ethoxide in 0.5 N HNO3 were also spray-pyrolysed at 600°C to prepare calcium titanate and titanium oxide particles trapped on a Ti substrate. Apatite could biomimetically be developed on the calcium titanate particles when they were soaked in an acellular simulated body fluid.

AB - Apatite derived by sol-gel routes through an amorphous state or derived biomimetically is likely to provide chemically and biologically active surfaces. Thus apatite or apatite-composite particles were prepared by spray-pyrolysis of several solutions as they were applicable to medical treatment. Calcium lactate and ammonium dihydrogen phosphate aqueous solutions stabilized with ethylenediaminetetraacetic acid were sprayed ultrasonically and pyrolysed at 600°C to yield amorphous particles of apatite while apatite-ferric oxide composite powders were prepared from the solutions of calcium lactate and ferric nitrate. Solutions of calcium nitrate and titanium ethoxide in 0.5 N HNO3 were also spray-pyrolysed at 600°C to prepare calcium titanate and titanium oxide particles trapped on a Ti substrate. Apatite could biomimetically be developed on the calcium titanate particles when they were soaked in an acellular simulated body fluid.

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ER -

Spray Pyrolysis Preparation of Apatite-Composite Particles for Biological Application

Abstract

All Science Journal Classification (ASJC) codes

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