RT - Journal Article T1 - SYNTHESISOF CHOLESTEROL GRAFTED MOLECULALRY IMPRINTED POLYMER BY MEANS OF THE SILANATION OF MAGNETIC PARTICLES AND EVALUTAION OF FUNCTIONAL CHARACTERISTICS JF - URMIAMJ YR - 2016 JO - URMIAMJ VO - 27 IS - 3 UR - http://umj.umsu.ac.ir/article-1-3429-en.html SP - 231 EP - 239 K1 - Cholesterol K1 - Grafted molecularly imprinted polymer K1 - Magnetic Fe3O4 nanoparticles AB - Background & Aims: Nowadays usage of molecularly imprinted polymers which act as artificial antibodies and separate target molecules from biological environments is a novel approach. Cholesterol is one of the major risk factors of cardiovascular diseases and its precise determination is crucial. In this research, a molecularly imprinted polymer by means of Fe3O4 nanoparticles coated with silica layer was fabricated and its functional characteristics were investigated. Materials & Methods: Co-precipitation method was used for manufacturing of magnetic Fe3O4 nanoparticles coated by silica. Then cholesterol imprinted polymer were synthesized by grafting core-shell procedure. Finally obtained polymer was eluted by mixture of solvents to create specific adsorbent active sites for cholesterol. The polymer was incubated with cholesterol stock solution and binding activity was determined through high performance liquid chromatography. Structure and morphology of samples were evaluated by FT-IR spectroscopy and scanning electron microscopy. Results: Optimized ratio of polymer weight to cholesterol stock solution volume showed 94% separation from 100 mg/L stock solution. FT-IR spectrometry results revealed a fine coating of silica for magneticFe3O4cores.Silica band which was adsorbent of template molecule was intensified by sol-gel polymerization method. Polymer morphology was porous, spherical shaped and particle dimensions were observed less than 50 nanometers. Conclusion: Application of Fe3O4 nanoparticles coated with silica in this method enables high separation of cholesterol which could be due to ease of extraction and grafted polymer nature. Morphology of adsorbent polymers indicated performance of nano surfaces in separation of this compound. SOURCE: URMIA MED J 2016: 27(3): 239 ISSN: 1027-3727 LA eng UL http://umj.umsu.ac.ir/article-1-3429-en.html M3 ER -