Journal article
Reverse Micelle‐Mediated Synthesis and Characterization of Tricalcium Phosphate Nanopowder for Bone Graft Applications
Journal of the American Ceramic Society, Vol.92(11), pp.2528-2536
11/2009
Handle:
https://hdl.handle.net/2376/104981
Abstract
Nanocrystalline β‐tricalcium phosphate (β‐TCP) powder was synthesized using reverse micelle as a template system. Cyclohexane was used as the oil phase, aqueous solutions of calcium nitrate and phosphoric acid as the aqueous phase, and poly(oxyethylene)5 nonylphenol ether (NP‐5) and/or poly(oxyethylene)12 nonylphenol ether (NP‐12) as the surfactants. The powder were synthesized at a fixed Ca/P molar ratio of 1.5 at a pH of 10. The synthesized powder were calcined at 800°C to obtain monophasic β‐TCP. Particle size, morphology, and surface area of the synthesized powder were dependent on the chemistry of the surfactant and composition of the microemulsion. The powder were characterized using a BET surface area analyzer, powder X‐ray diffraction, dynamic light scattering technique, and transmission electron microscopy. TCP nanoparticles had a particle size between 32 and 135 nm, and a BET‐specific average surface area between 57 and 103 m2/g with controlled morphology. The powder were consolidated and sintered at 1250°C in a 3 kW microwave furnace in the form of a compact disk. Human osteoprecursor cells (osteoblastic precursor cell line 1 [OPC1]) were used to assess the biocompatibility of TCP disks after 1, 5, and 11 days in culture using scanning electron microscopy, MTT assay, and alkaline phosphatase expressions. Disk samples were biocompatible and showed excellent OPC1 cell adhesion, growth, and proliferation. Biocompatible β‐TCP nanopowder were synthesized with controlled particle size, morphology, and surface area using a reverse micelle‐mediated template system.
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Details
- Title
- Reverse Micelle‐Mediated Synthesis and Characterization of Tricalcium Phosphate Nanopowder for Bone Graft Applications
- Creators
- Sudip DasguptaSusmita Bose
- Publication Details
- Journal of the American Ceramic Society, Vol.92(11), pp.2528-2536
- Academic Unit
- Mechanical and Materials Engineering, School of
- Publisher
- Blackwell Publishing Inc; Malden, USA
- Number of pages
- 9
- Identifiers
- 99900546752701842
- Language
- English
- Resource Type
- Journal article