复合碱性功能单体分子烙印手性固定相

采用丙烯酰胺+2-乙烯基吡啶的复合碱性功能单体体系制备了氨基酸衍生物分子烙印高效液相色谱手性固定相。在优化了功能单体与烙印分子的比例条件下对于烙印分子及其结构相似的对映体具有良好的手性分离能力。考察了烙印分子的化学基团对手性分离的影响,发现氢键作用力和较强的离子作用力在手性分离过程中均有贡献。     

三元交联剂分子烙印手性固定相

采用２－乙烯基吡啶＋丙烯酰胺复合功能单体,以三甲氧基丙烷三甲基丙烯酸酯为三元交联剂制备了苯甲氧羰基－Ｌ－色氨酸烙印手性固定相,并与二元交联剂烙印相同氨基酸衍生物的情况进行了对比,发现三元交联剂在较小的用量下就可使分子烙印聚合物达到足够的交联度,实现烙印分子对映体的基线分离。     

烙印分子刚性对分子烙印手性固定手性拆分能力的影响

采用丙烯酰胺＋２－乙烯基吡啶复合功能单体烙印了刚性较小的苯甲氧羰基－Ｌ－丝氨酸、苯甲氧羰基－Ｌ－丙氨酸和具有一定刚性的苯甲氧羰基－Ｌ－脯氨酸，发现丙烯酰胺＋２－乙烯基吡啶体系对于分子刚性较小的分子也具有很好的烙印效果，表明不是烙印分子的刚性而是带有的与功能单体作用的化学功能基团才是实现分子烙印的关键。     

分子烙印手性固定相分离过程热力学研究

考察了温度对分子烙印固定相手性分离的影响,计算了手性分离过程中的热力学参数.结果表明,分子烙印手性固定相的分离过程为焓控制过程.随着温度的升高,样品的容量因子降低,手性选择因子α减小.样品与分子烙印固定相的作用力包括非特异作用力和特异作用力,只有特异作用力的差值才是手性分离的本质.分子烙印产生的空穴对热力学参数有较大的影响,烙印分子与烙印空穴的匹配性最好,烙印空穴对烙印分子的结合在能量和构型上都是有利的.     

同时烙印分子烙印手性固定相

对采用两种对本同时烙印的方法,制备的氨基酸衍生物分子烙印手性固定相进行了考察。研究表明,如果两种烙印分子单独烙印的分子烙印手性对固定相对两种烙印分子具有较强的手性交叉拆分能力,那么这两种烙印分子同时烙印制得的分子烙印手性固定相就可对两种烙印分子均具有很好的手性分离能力,从而使专一性强的分子烙印手性固定相能同时分离多种对映体。     

烙印分子刚性对分子烙印手性固定相手性拆分能力的影响

采用丙烯酸胺+2-乙烯基吡啶复合功能单体烙印了刚性较小的苯甲氧羰基-L-丝氨酸、苯甲氧羰基-L-丙氨酸和具有一定刚性的苯甲氧羰基-L-脯氨酸,发现丙烯酸胺+2-乙烯基吡啶体系对于分子刚性较小的分子也具有很好的烙印效果,表明不是烙印分子的刚性而是带有的与功能单体作用的化学功能基团才是实现分子烙印的关键.     

萘普生分子印迹拆分及亲和吸附平衡常数的测定

分子印迹 (Molecular imprinting)是一种新的、很有发展潜力的分离技术 [1～ 3 ] .该技术已成功地用于氨基酸、糖类及其衍生物和药物的手性分离 .萘普生是一种重要的非甾体消炎、解热和镇痛药 ,为了减少给药量和对人体产生的毒副作用 ,必须对其进行手性拆分 . Mosbach等 [4 ] 曾以 4-乙烯基吡啶为功能单体 ,利用分子印迹对外消旋萘普生进行了手性拆分 ,但 4-乙烯基吡啶使用前需经过减压蒸馏 ,使用不便 . Haginaka等 [5～ 7] 也采用 4-乙烯基吡啶为功能单体 ,以 (S) -萘普生为模板制得了均一粒径的分子印迹介质 .尽管分子印迹分离技术发展…     

分子印迹薄层色谱手性固定相的制备及其色谱性能

分别以右旋扁桃酸、右旋邻氯扁桃酸和右旋对氯扁桃酸为模板,丙烯酰胺、乙二醇二甲基丙烯酸酯为功能单体和交联剂合成分子印迹聚合物,并以此作为薄层色谱手性固定相。研究了模板分子消旋体在手性固定相上的分离情况,并讨论了展开剂中乙酸含量对分离的影响。在乙腈-5%乙酸展开体系中扁桃酸、邻氯扁桃酸和对氯扁桃酸消旋体得到较好的分离,分离因子分别为1.45,1.62和1.56。该手性固定相对模板分子的结构类似物也具有一定的手性交叉分离能力。讨论了分析物的化学结构对该手性固定相识别性能的影响。该方法为快速、灵敏地对手性物质分析、定性提供了一条简便的途径。     

除草剂青莠定分子印迹聚合物的合成及结合性能研究

采用分子印迹技术,分别以α-甲基丙烯酸和4-乙烯基吡啶为功能单体,合成了两种对除草剂青莠定具有选择性结合能力的分子印迹聚合物．紫外光度法研究显示了模板分子青莠定和4-乙烯基吡啶的离子作用强于它和α-甲基丙烯酸之间的氢键作用,并用平衡结合实验研究了不同功能单体的聚合物对模板分子的结合能力和对底物的选择性,结果表明以4-乙烯基吡啶为功能单体合成的分子印迹聚合物对青莠定表现出更高的结合能力和更优的选择性．这对分子印迹技术用于环境样品中除草剂青莠定的分离和富集具有重要意义。     

L-扁桃酸金属配位分子烙印聚合物的手性分离能力

以CuⅡ-[N-(4-vinylbenzyl)]im inod iacetic ac id为功能单体、三甲氧基丙烷三甲基丙烯酸酯为交联剂、甲醇为聚合溶剂,制备了L-扁桃酸的金属配位分子烙印聚合物。用它作为色谱固定相,系统考察了流动相的pH、甲醇含量以及缓冲溶液的浓度对其手性分离能力的影响。在中性或弱碱性(pH 7~9)流动相条件下,L-扁桃酸的金属配位分子烙印聚合物对D,L-扁桃酸的手性分离效果最好;其手性分离能力随流动相中甲醇含量和缓冲溶液浓度的增大而增强。本研究的工作为在极性溶剂中制备高选择性的分子烙印聚合物提供了实践支持。     

Novel polymer system for molecular imprinting polymer against amino acid derivatives

Molecular imprinting polymers (MIPs) against N-Cbz-L-Tyr were prepared utilizing different polymer systems and evaluated in HPLC mode. It was found that MEP utilizing cocktail functional monomers, acrylamide 2-vinylpyridine showed better molecular recognition and better separation ability for the template molecule than those utilizing other functional monomers. MIP utilizing trimethylolpropane trimethacrylate as cross-linker showed higher load capacity and separation factor than those utilizing ethylene glycol dimethacrylate as cross-linker. Increasing the concentration of competing solvent, acetic acid weakened the ionic interaction and hydrogen bonding between the analyte and the functional monomers, 2-vinylpyridine and acrylamide, when the template enantiomer was separated by HPLC. Therefore increasing of the concentration of acetic acid leads to decreasing of capacity factor, separation factor and resolution.     

反乌头酸分子印迹聚合物微球的制备及其分子识别功能

以乙腈为分散剂,采用沉淀聚合法合成了反乌头酸分子印迹聚合物微球。研究了合成反应条件对聚合物形貌的影响,发现聚合前主客体氢键络合物和功能单体氢键低聚体是控制微球形成及其粒径大小的关键因素。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。     

分子烙印聚合物作为高效毛细管电泳添加剂的研究

分子洛印聚合物（molecular imprinted polymer)是一种高选择的有分子记忆效应的主体分子,通常在非极性环境中制备和应用。该文在极性溶剂中利用离子化作用和疏水作用制备了非共价的分子烙印聚合物,并将其作为高效毛细管电泳流动相添加剂;在含水缓冲溶液条件下,研究了单体种类、分子烙印聚合物颗粒度和含量、缓冲溶液pH值以及分离电压对分子烙印聚合物识别模板分子的影响。结果证明了在质子溶剂中制备和应用非共价分子烙印聚合物是可行的。     

Study on the Binding Characteristic of Methamidophos‐Specific Molecularly Imprinted Polymer and the Interactions between Template and Monomers

A new molecularly imprinted polymer (MIP) was prepared using methamidophos (MAP) as the template molecule based on non‐covalent interaction. The complexes formed between template and monomers before polymerization were characterized by ¹H NMR titration test, FT‐IR and UV spectrometry study. These studies indicated that a 1:2 molecular complex formed dominantly between MAP and functional monomers. A model mainly involving cooperative hydrogen interaction was proposed by exact placement of functional groups. Association constant was estimated to be 2.894 × 10⁶ L²/mol². When the initial concentration of MAP was 1.0 mmol L^?1, the affinity capacity of MIP was 4.23 times that of NIP. The binding performance of MIP was modeled with the Freundlich isotherm (FI) and the total number of binding sites was calculated to be 33.97 μmol/g. The MIP showed great homogeneity with a heterogeneity index of m = 0.7356. The specificity of MIP was investigated by single‐analyte binding and molecularly imprinted solid‐phase extraction (MISPE) assays using MAP and other structurally related organophorous pesticides (OPPs). The results indicated that the MIP had a marked preference for MAP.     

Study on the mechanism of chiral recognition with molecularly imprinted polymers

This study aimed at elucidating the chiral recognition mechanism with molecularly imprinted polymers (MIPs) in aqueous environment. The system used ethylene glycol dimethacrylate (EGDMA), methacrylic acid (MAA), and 4-l-phenylalanylamino-pyridine (4-l-PheNHPy) as the cross-linking monomer, functional monomer and template, respectively, to assemble the imprinted polymer. A self-assembly mechanism, which includes the pre-organizing functional monomers around template before polymerization process, was proposed. This mechanism was supported by NMR titration test. Interactions between functional monomer and template were observed using UV-Vis spectroscopy of solutions of these components as well. These studies indicated a 1:2 molecular complex dominantly formed between 4-l-PheNHPy and MAA. Association constant was estimated to be 97,000 M⁻². Based on these results, a model mainly involving two-spot interaction was proposed evolving from our reported concept of exact placement of functional group. Ionic interaction between the primary amino group of 4-l-PheNHPy and carboxylic acid group inside the microcavity on MIPs was believed to play a predominate role in the enantioselectivity as supported by the observation of the relationship between the retention factor of 4-l-PheNHPy and the pH of mobile phase. While thermodynamic study at different pH revealed that, the interaction between the pyridyl group of 4-l-PheNHPy and the carboxylic acid group on the MIPs is also strong, implying that it also plays a profound role in determining the highly chiral selectivity of MIPs.     

球形分子烙印聚合物分离立体异构体

用悬浮聚合的方法制备了粒径为50～70μm的均匀球形的分子烙印聚合物,对立体异构体辛可宁和辛可尼丁获得了较好的分离效果（α=2．89,Rs=0．76）。通过对物理性质的研究发现：球形的分子烙印聚合物呈均匀完美的球形,并具有良好的热稳定性。     

Solvent effects in the preparation of molecularly imprinted polymers for melatonin using N-propionyl-5-methoxytryptamine as the pseudo template

To clarify the role of diluents in the preparation of molecularly imprinted polymers utilizing only hydrogen bonding, we investigated the effects of diluents by using different solvents. Melatonin (N-acetyl-5-methoxytryptamine), an amide bond and indole ring-containing hormone was chosen as the target molecule. N-Propionyl-5-methoxytryptamine was used as the pseudo template, methacrylic acid as the functional monomer, and solvents were used as diluents. Interactions between the template, the functional monomer, melatonin, and the solvents, were observed by ¹H NMR spectroscopy. The polymers were evaluated by high-performance liquid chromatography. The results suggest the hydrogen bonding-acceptor capacity of the solvent is the most important factor in the preparation of molecularly imprinted polymers for hydrogen bonding-donating molecules. Hydrogen bonding between the template, the functional monomer, and solvent can be estimated from the chemical shifts in ¹H NMR spectra of those molecules in the solvent.     

Open tubular layer of S‐ofloxacin imprinted polymer fabricated in silica capillary for chiral CEC separation

An open tubular molecule imprinted polymer (OT‐MIP) capillary column has been prepared for chiral separation of ofloxacin enantiomers in CEC. The S‐ofloxacin imprinted OT column was fabricated by thermally initiated non‐covalent polymerization procedure inside a pretreated and silanized fused silica capillary. The template molecule was incorporated with methacrylic acid (MAA), ethylene glycol dimethacrylate (EDMA) and 4‐styrenesulfonic acid (4‐SSA) and dissolved in a porogen mixture of ACN/2‐propanol (9:1). The separation efficiency of the 4‐SSA MIP column was found quite better than that of the MIP column without 4‐SSA. It has been demonstrated that our OT‐MIP column can separate ofloxacin enantiomers with excellent chiral separation efficiency after tuning the various chromatographic conditions. The optimized chromatographic eluent was 85:15, v/v%, ACN/60 mM sodium acetate at pH 7. The separation efficiency and selectivity of chiral separation of this study were far better than those obtained by previous methods for chiral separation of R‐ and S‐ofloxacin.