Preparation and characterization of molecularly imprinted mesoporous organosilica for biphenol Z recognition and separation

机译：用于双酚Z识别和分离的分子印迹介孔有机硅的制备与表征

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Materials with large pore volume, fast binding kinetics and specific recognition are essential building blocks for sensors and assays. In this study, molecularly imprinted mesoporous organosilica (MIMO) was prepared by covalent surface imprinting methods with biphenol Z (BPZ) as template molecule and further characterized by FT-IR, TEM and N adsorption-desorption. Binding experiments results showed that MIMO has fast binding kinetics, good recognition for BPZ as compared to non-imprinted mesoporous organosilica (NIMO). Meanwhile, binding selectivity experiments demonstrated that MIMO had a high affinity to BPZ and BPA as compared to other structural analogues (BPS, catechol and resorcinol). Results demonstrate that MIMO has potential in sensor or separation application.

机译：具有大孔体积，快速结合动力学和特异性识别的材料是传感器和测定的重要组成部分。本研究以双酚Z（BPZ）为模板分子，通过共价表面印迹法制备了分子印迹介孔有机硅（MIMO），并通过FT-IR，TEM和N吸附-脱附进行了表征。结合实验结果表明，与非压印介孔有机硅（NIMO）相比，MIMO具有快速的结合动力学，对BPZ具有良好的识别性。同时，结合选择性实验表明，与其他结构类似物（BPS，邻苯二酚和间苯二酚）相比，MIMO对BPZ和BPA具有高亲和力。结果表明，MIMO在传感器或分离应用中具有潜力。

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《IEEE International Conference on Mechatronics and Automation》|2015年|970-975|共6页
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Shu Yang; Yun Liu; Huamin Yi; Liquan Sun; Aiqin Luo;
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biphenol Z; mesoporous organosilica; molecularly imprinted polymer; selectivity;

机译：双酚Z;介孔有机硅;分子印迹聚合物;选择性;

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Preparation and characterization of molecularly imprinted mesoporous organosilica for biphenol Z recognition and separation

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