template molecule

And the adsorption amount of the sol-gel method to the template molecule is higher than the RAFT method .

可操作程度比较高。且溶胶凝胶法对模板分子的吸附量较RAFT法吸附量稍高。

The result explain the imprinted polymer has very good recognition performance and higher adsorption capacity for specific template molecule .

说明印迹聚合物对特性的模板分子具有很好的识别性能和较高的吸附容量。

MIPs were prepared by precipitation polymerization with tetracycline as the template molecule .

二.以四环素为模板分子，用沉淀聚合法合成四环素分子印迹聚合物。

Molecularly imprinted polymers were prepared using S-naproxen as a template molecule .

本文以S-萘普生为模板合成分子印迹聚合物。

The MIP coatings were also prepared using either S-naproxen or S-ketoprofen as template molecule .

我们也使用S-萘普生和S-酮洛芬作为模板分子制备了MIP毛细管涂层柱。

There exist enormous difficulties to select the monomer , solvent , cross-linker and their proportion for a specific template molecule .

对于某一模板分子，如何选择功能单体、溶剂、交联剂及它们与模板分子的比例，仍是一个十分困难的问题。

The absorptive rate was 92.0 % , showing that the selectivity of MIP for the template molecule TNT was high .

L-1，吸附率高达92%，说明MIP对模板分子TNT有很好的选择性。

Using paracetamol as template molecule , molecularly imprinted polymer membranes with supporting membrane were synthesized through in situ polymerization by UV irradiation .

摘要采用紫外光引发原位聚合的方法制备了具有支撑膜的扑热息痛分子印迹聚合物膜。

After the template molecule is removed by physical and chemical methods , complementary cavities with respect to shape and functional groups remain in the polymeric matrix .

当通过物理或化学方法去除模板分子后，在聚合物中留下预期的具有特定形状和特定官能团的印迹孔穴。

By adjusting the template molecule and the solvent ratio of water content , we got the more excellent preparation adsorption of methyl orange molecularly imprinted materials .

通过适当调整模板分子和溶剂水的比例含量，制备吸附性能较为优异的甲基橙分子印迹材料。

Molecular imprinted polymer technology is used to prepare molecular imprinted polymer which get specific intended selective to specific target molecule ( also known as the template molecule ) .

分子印迹技术是制备对特定目标分子（也称模板分子或印迹分子）具有特异预定选择性的高分子化合物的技术。

By the addition template molecule in the process of preparation , MIM is endowed with memory and recognition function , could usd to separate the template molecule .

它是通过在膜制备过程中引入模板分子，使膜材料具有分子记忆与识别作用，形成具有特异性高效分离作用的分离膜。

Using 1H-indole-3-acetic acid as template molecule and 4-vinylpyridine as functional monomer , a kind of new molecular template polymer was prepared by self-assembly molecular template technique .

以吲哚乙酸为模板分子，4乙烯吡啶为功能单体，采用分子自组装模板技术合成了可识别吲哚乙酸的新型模板聚合物。

The details are summarized as follows : ( 1 ) A highly selective MIPs with erythromycin as the template molecule was prepared by a sol-gel imprinting technique .

本论文的主要研究内容具体如下：⑴以红霉素为模板分子，采用溶胶-凝胶印迹技术，合成对红霉素具有特异选择识别性能的印迹聚合材料。

In this method , a molecularly imprinted capillary monolithic column prepared by in situ polymerization inside a ultraviolet transparent fused silica capillary using caffeine as template molecule was used .

在该方法中，以咖啡因为模板分子，经紫外光引发原位聚合制备了分子印迹毛细管整体柱。

Molecularly imprinted polymers were prepared using S-naproxen as a template molecule , N-vinylpyrrolidone as a functional monomer and divinylbenzene as a crosslinker .

以S萘普生为模板，N乙烯基吡咯烷酮为功能单体，二乙烯基苯为交联剂分别按照摩尔比1/4/10、1/4/20和1/4/30合成了分子印迹聚合物（MIP）。

As tailor made polymer materials for recognition of template molecule , molecularly imprinted polymers ( MIPs ) have been applied in chromatography , chiral compound separation and solid phase extraction .

利用该方法所制备的功能化高分子材料，已广泛地应用在色谱拆分手性体、微量分析、分子识别传感器等方面。

Molecular imprinting technique ( MIT ) is a synthetic approach for the preparation of molecular imprinted polymers ( MIPs ) in which a three-dimensional polymeric matrix around a template molecule is created .

分子印迹技术（MIT）是一种通过在模板分子周围空间内制备三维网状高分子印迹聚合物的方法。

In this paper , a molecularly imprinted polymer ( MIP ) was prepared with EGCG as the template molecule by the molecularly imprinting technique to separate EGCG from tea polyphenols .

在本论文中，分子印迹技术被应用于分离EGCG。

The result of equilibrium adsorption experiments showed that the MIPs can adsorb the template molecule selectively , and have a high affinity to the template in comparison with the blank polymers ( BPs ) .

聚合物的平衡吸附实验表明，相比空白聚合物，印迹聚合物在乙腈溶剂中对模板分子具有更好的吸附性能。

This new type of azobenzene functional monomer covalently bound at one end to the template molecule and the other end with 3-Iodopropyltrimethoxysilane ; then the functional monomer we prepared was characterized by infrared spectroscopy . 2 .

这种新型的偶氮苯功能单体一端以共价键结合模板分子，另一端结合3-碘代正丙基三甲氧基硅烷；然后对所制备的功能单体进行了红外表征以及光谱分析。

With the maximum apparent adsorbance is 4.88 mg / g , which was got using Scatchard model , the imprinted polymer not only has better dynamics and specific identification , but also has a higher adsorption capacity for the template molecule .

吸附性能测试表明印迹聚合物不仅具有较好的动力学特性和专一识别性，而且对模板分子有较高的吸附量，采用Scatchard模型分析得到印迹聚合物的最大表观吸附量为4.88mg/g。

Conclusion Methanol-glacial acetic acid ( 6:4 , V / V ) is an ideal extract solvent for complete template molecule removal from the polymers , and the processed polymers possess stable capacity of specific recognition and selectivity to the template .

结论用甲醇-冰醋酸（6∶4，v/v）为溶剂抽提聚合物，模板分子洗脱完全，聚合物性质稳定，对模板分子VLB表现出高度的选择性和特殊的识别性能。

According to the relevant research , a molecularly imprinted polymer ( MIP ) is prepared with caffeine as the template molecule by the molecularly imprinting technique in the paper to separate caffeine from tea polyphenols with the selectivity of molecular weight and structure .

本论文根据已有文献的报道，采用分子印迹技术合成以咖啡碱为模板的分子印迹聚合物，通过它对分子大小和结构的特殊选择性来分离咖啡碱。

Conductive polypyrrole / TiO2 nanocomposites were successfully prepared by surface molecular imprinting technique ( MIP-PPy / TiO2 ) using methyl orange as template molecule . The samples were characterized by means of SEM , XRD , BET and UV-vis diffuse reflectance spectroscopy .

以甲基橙为模板分子，采用表面分子印迹技术制备导电聚毗咯/TiO2纳米复合光催化剂，样品用SEM.XRD、BET和UV-Vis等手段进行表征。

The experimental results showed that Ti-HMS with high BET surface area and high ordered structure could be obtained when v_ ( Si ) / v_ ( Ti ) > 30 . The pore volume and the pore size increase with the increase of the chain length in template molecule .

结果表明，只有在vSi/vTi>30时，分子筛产物才具有较高的比表面积和结构有序度。模板剂分子的碳链越长，则得到的TiHMS分子筛的孔容及孔径越大。

By using histamine as the template molecule , methacrylic acid as the functional monomer , ethylene glycol dimethacrylate as the crosslinking agent , and zinc (ⅱ) protoporphyrin as the functional monomer , a new kind of molecularly imprinted polymer which may emit fluorescence was synthesized .

以组胺为模板分子，α-甲基丙烯酸为共功能单体，锌原卟啉为荧光功能单体，乙二醇二甲基丙烯酸酯为交联剂，合成了一种新的发光性分子印迹聚合物。

Binding property was evaluated with a batch adsorption method . The results indicate that the selective recognition of the template molecule with the molecularly imprinted polymer ( MIP ) microsphere is superior to those of the MIP monolith as well as the non molecularly imprinted polymer ( NMIP ) .

通过振荡吸附法对聚合物的结合特性进行了评价，发现印迹聚合物微球对模板分子的识别选择性优于块状印迹聚合物和非印迹聚合物。

As a template , DNA molecule can be adsorbed on humic acid film .

以胡敏酸膜为模板，可以吸附DNA分子。

The effects of different dosage of template to imprinted molecule on adsorption properties of fibers were investigated .

探讨了不同模板分子用量对分子印迹纤维吸附性能的影响，研究其对BPA的吸附动力学。