第二章,分子烙印技术。
分子烙印技术是一种能制备预定选择性分离介质的技术。
The molecular imprinting technique is a reliable technique for the preparation of materials of predetermined selectivity.
分子烙印技术是一种能制备预定选择性分离介质的技术。
The principle of molecule imprinting technique was introduced and the applications of this technique were reviewed.
分子烙印技术是一种能制备预定选择性分离介质的技术。
Molecular imprinted polymer is a kind of host molecules with high selectivity of molecular recognition.
本文对极性溶剂中非共价型分子烙印聚合物的制备条件进行了研究。
The paper studied a method of preparing noncovalent molecular imprinting polymer(MIP) in polar solvent.
分子烙印技术是制备具有选择性分子识别能力的聚合物的新兴技术。
Molecular imprinting is an emerging technique for the preparation of polymers possessing highly selective recognition properties.
结果证明了在质子化溶剂中制备和应用非共价分子烙印聚合物是可行的。
The results showed that it was possible to prepare non-covalent molecular imprinted polymers in polar solvents, and to use them in polar solvents as well.
分子烙印技术是一种制备具有特定选择性和亲合性的分子识别材料的技术。
Molecular imprinting technique is a polymerizing technique to produce molecular recognition materials with high selectivity and affinity.
目的将分子烙印聚合物(MIP)作为固相萃取的吸附剂,研究其分子识别性能。
OBJECTIVE To study the molecular recognition properties of the molecularly imprinted polymer(MIP) as the adsorbent of solid-phase extraction(SPE).
考察了一系列分子烙印聚合物的热稳定性和孔结构,探讨了孔结构与手性选择性的关系。
The thermal stability and pore structure of a series of molecule imprinted polymers were investigated. The relationship between the pore structure and chiral selectivity was discussed.
以氨基安替比林为模板分子,采用原位聚合法制备了具有特定识别性能的棒状分子烙印聚合物。
The recognition of the molecularly imprinted polymer rod was evaluated by comparing the retention values of aminoantipyrine and its analogues.
研究了影响分子烙印聚合物形貌和吸附性能的因素,表明该聚合物对模板化合物茶碱具有良好的特异性吸附性能。
The absorption capability was determined and found the MIP has absorption with a good selectivity on theophylline. The factors which effect on the size and...
研究了影响分子烙印聚合物形貌和吸附性能的因素,表明该聚合物对模板化合物茶碱具有良好的特异性吸附性能。
The absorption capability was determined and found the MIP has absorption with a good selectivity on theophylline. The factors which…
用非共价法,在极性溶剂中,以丙烯酰胺作功能单体,以强极性化合物槲皮素为模板,制备了分子烙印聚合物(mip)。
A molecularly imprinted polymer (MIP) was prepared using quercetin as the template and acrylamide as the hydrogen-bonding functional monomer in a polar solvent.
而生物识别一般在水中进行,因此研究水相中分子烙印聚合物的制备和应用,对于生物样品的分离和纯化,具有重要意义。
However, for some biological samples whose biological recognition mainly occurs in aqueous solution and the application of MIPs were limited to some extent.
作为色谱固定相,磺胺甲恶唑烙印聚合物和目标分子之间的相互作用除氢键作用外,也存在着疏水作用。
The interaction between the MIP and target molecules were found to arise from hydrogen bonding in the imprinted area and the hydrophobic interaction in the non-imprinted area .
作为色谱固定相,磺胺甲恶唑烙印聚合物和目标分子之间的相互作用除氢键作用外,也存在着疏水作用。
The interaction between the MIP and target molecules were found to arise from hydrogen bonding in the imprinted area and the hydrophobic interaction in the non-imprinted area .
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