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Surface characterization of calcium phosphate coating formed on chitosan and alkali-treaDted titanium metal / 대한치과재료학회지
Article in En | WPRIM | ID: wpr-750278
Responsible library: WPRO
ABSTRACT
The calcium phosphate coating on various pretreated metals was prepared by soaking in modified simulated body fluid (m-SBF) solution. The coating structure and its surface morphologies were determined by x-ray diffraction, Fourier transform infrared spectroscopy, and scanning electron microscopy. The results revealed significant differences in morphology and composition of the calcium phosphate coatings with and without chitosan and NaOH-pretreated commercially pure titanium (cp-Ti) substrate. The calcium phosphates formed on chitosan coated-Ti pretreated with NaOH were ~ 350 nm-sized resulting in strong bonding of the apatite layer with the substrates and a uniform gradient of stress transfer from coating materials to the Ti-substrate. After NaOH pretreatment, the hydroxyl groups bind to Ca²⁺ to attract PO₄³⁻ anions, eventually resulting in a continuous layer of calcium phosphate on chitosan coated-Ti substrate during immersion in m-SBF solution. The chitosan coated-Ti showed hydrophobic surface while NaOH pretreatment resulted in maximum hydrophilicity to the Ti substrate. Due to improved wettability of Ti by NaOH pretreatment before chitosan coating, aggregation of calcium phosphate was prevented and size-controlled composite materials were obtained.
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Full text: 1 Index: WPRIM Main subject: Titanium / X-Ray Diffraction / Body Fluids / Calcium Phosphates / Microscopy, Electron, Scanning / Calcium / Clothing / Wettability / Spectroscopy, Fourier Transform Infrared / Chitosan Language: En Journal: Korean Journal of Dental Materials Year: 2019 Type: Article
Full text: 1 Index: WPRIM Main subject: Titanium / X-Ray Diffraction / Body Fluids / Calcium Phosphates / Microscopy, Electron, Scanning / Calcium / Clothing / Wettability / Spectroscopy, Fourier Transform Infrared / Chitosan Language: En Journal: Korean Journal of Dental Materials Year: 2019 Type: Article