Preparation and recognition performance of creatinine-imprinted material prepared with novel surface-imprinting technique
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- 作者:Baojiao Gao ; Yanbin Li ; Zhenguo Zhang
- 关键词:Creatinine ; Polymethacrylic acid ; Silica gel ; Graft polymerization ; Surface imprinting technique
- 刊名:Journal of Chromatography B, Analytical Technologies in the Biomedical and Life Sciences
- 出版年:2010
- 出版时间:1 August 2010
- 年:2010
- 卷:878
- 期:23
- 页码:2077-2086
- 全文大小:521 K
文摘
By adopting the novel surface molecular imprinting technique put forward by us not long ago, a creatinine molecule-imprinted material with high performance was prepared. The functional macromolecule polymethacrylic acid (PMAA) was first grafted on the surfaces of micron-sized silica gel particles in the manner of “grafting from” using 3-methacryloxypropyltrimethoxysilane (MPS) as intermedia, resulting in the grafted particles PMAA/SiO2. Subsequently, the molecular imprinting was carried out towards the grafted macromolecule PMAA using creatinine as template and with ethylene glycol diglycidyl ether (EGGE) as crosslinker by right of the intermolecular hydrogen bonding and electrostatic interaction between the grafted PMAA and creatinine molecules. Finally, the creatinine-imprinted material MIP-PMAA/SiO2 was obtained. The binding character of MIP-PMAA/SiO2 for creatinine was investigated in depth with both batch and column methods and using N-hydroxysuccinimide and creatine as two contrast substances, whose chemical structures are similar to creatinine to a certain degree. The experimental results show that the surface-imprinted material MIP-PMAA/SiO2 has excellent binding affinity and high recognition selectivity for creatinine. Before imprinting, PMAA/SiO2 particles nearly has not recognition selectivity for creatinine, and the selectivity coefficients of PMAA/SiO2 for creatinine relative to N-hydroxysuccinimide and creatine are only 1.23 and 1.30, respectively. However, after imprinting, the selectivity coefficients of MIP-PMAA/SiO2 for creatinine in respect to N-hydroxysuccinimide and creatine are remarkably enhanced to 11.64 and 12.87, respectively, displaying the excellent recognition selectivity and binding affinity towards creatinine molecules.