In situ synthesis of magnetic mesoporous silica via sol-gel process coupled with precipitation and oxidation 被引量：2

In situ synthesis of magnetic mesoporous silica via sol–gel process coupled with precipitation and oxidation

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摘要 A novel method was proposed for the in situ synthesis of magnetite-containing mesoporous silica SBA- 16 via a sol-gel process coupled with precipitation and oxidation. The effect of the added amounts of reactants on the mesostructural and magnetic properties of the magnetic mesoporous silica was inves- tigated, It was determined that the synthesized magnetic mesoporous silica with a total pore volume of 0.64-0.96 cm3/g and an average pore diameter of 4.0-14,9 nm had a relatively high saturation mag- netization value （1.11-5.77 emu/g） and a large surface area （258-747 m2/g）, Lysozyme was chosen as a model protein to test the performance of the magnetic mesoporous silica as a protein adsorbent, The high adsorption capacity （up to 212 mg/g） suggested a promising future as bimolecular hosts for the magnetic mesoporous silica. A novel method was proposed for the in situ synthesis of magnetite-containing mesoporous silica SBA- 16 via a sol-gel process coupled with precipitation and oxidation. The effect of the added amounts of reactants on the mesostructural and magnetic properties of the magnetic mesoporous silica was inves- tigated, It was determined that the synthesized magnetic mesoporous silica with a total pore volume of 0.64-0.96 cm3/g and an average pore diameter of 4.0-14,9 nm had a relatively high saturation mag- netization value （1.11-5.77 emu/g） and a large surface area （258-747 m2/g）, Lysozyme was chosen as a model protein to test the performance of the magnetic mesoporous silica as a protein adsorbent, The high adsorption capacity （up to 212 mg/g） suggested a promising future as bimolecular hosts for the magnetic mesoporous silica.

作者 Junqi Zhao Yujun Wang Guangsheng Luo Shenlin Zhu

机构地区 The State Key Laboratory of Chemical Engineering

出处《Particuology》 SCIE EI CAS CSCD 2011年第1期56-62,共7页 颗粒学报（英文版）

基金 support of the National Natural Science Foundation of China (Grant Nos.20476050, 20490200 and 20525622) National Basic Research Program (2007CB714302)

关键词 Magnetic mesoporous silica Mesostructural property Magnetic property Protein absorbent Magnetic mesoporous silica Mesostructural property Magnetic property Protein absorbent

分类号 TQ424.25 [化学工程] TQ174.758

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