4-氨基吡啶分子印迹聚合物毛细管整体柱的制备及电色谱性能研究

以4-氨基吡啶(4-AP)为印迹分子,热引发原位合成了分子印迹聚合物毛细管整体柱,聚合物通过共价键和石英毛细管内壁相连,制备方法简单、快捷.在最佳电色谱条件下,4-AP和2-AP之间的分离度在印迹聚合物柱上高达2.5,而在不含印迹的对照柱上仅为0.35.通过研究流动相条件对4-AP,2-AP和硫脲迁移的影响,对4-AP印迹聚合物的电色谱识别机理进行了探讨.印迹识别能力随缓冲溶液离子强度的减小或流动相中乙腈比例的增大而增大.上述两种情形下,流动相中阳离子浓度均减少,使得聚合物孔穴中可与4-AP发生静电作用的有效羧基作用位点增加,从而显现出孔穴对印迹分子的专一亲和作用(形状、大小和作用力).缓冲溶液的种类和pH值对该印迹聚合物识别能力的影响较为复杂,在磷酸盐缓冲溶液体系中,pH值对识别能力的影响呈抛物线形,pH=5时识别能力最强;在醋酸盐缓冲溶液体系中,高pH值有利于分离.     

氨基安替比林MIP-CEC整体柱的制备及电色谱性能研究

以氨基安替比林为模板分子,在内径100 μm的石英毛细管内采用原位聚合法制备了分子印迹毛细管整体柱,以电色谱模式分离了氨基安替比林及其结构类似物安替比林,在乙腈(体积分数15%)-磷酸二氢钠缓冲液(5 mmol/L)作为流动相(pH 7.0)条件下,18 min内完成分离,分离因子为1.37.考察了缓冲液中乙腈含量、pH值、离子强度对电渗流、溶质保留时间及分离因子的影响,探讨了整体柱识别机理.     

巴比妥分子印迹毛细管电色谱整体柱的制备及分离特性研究

以巴比妥为模板分子,采用原位聚合法制备了具有特定识别性能的巴比妥印迹聚合物.采用电色谱模式考察了该色谱柱的识别性能.结果表明:这种整体柱对模板分子有很好的识别能力.     

分子印迹整体柱在高效液相色谱和电色谱手性分离中的应用

在常规不锈钢色谱管中以甲基丙烯酸为功能单体,采用原位聚合法制备了(5S,11S)-特罗格尔碱(S-TB)的印迹整体柱。考察了流动相中添加不同量的醋酸和水对分离的影响,结合台阶梯度洗脱模式在S-TB整体柱上实现了对TB消旋体的快速分离。另外,以碱性单体2-二甲基乙基胺甲基丙烯酸酯(DAMA)为功能单体,在毛细管中采用原位聚合法制备了毛细管分子印迹整体柱,用于在毛细管电色谱（CEC）中对消旋体1,1′-联-2-萘酚(BNL)进行手性分离。结果表明,以AMA为功能单体可以制备其他酸性模板的分子印迹聚合物,从而扩大了分子印迹聚合物MIP）在CEC分离中的应用范围。     

分子印迹整体柱在高校液相色谱和电色谱手性分离中的应用

在常规不锈钢色谱管中以甲基丙烯酸为功能单体,采用原位聚合法制备了(5S,11S)-特罗格尔碱(S-TB)的印迹整体柱.考察了流动相中添加不同量的醋酸和水对分离的影响,结合台阶梯度洗脱模式在S-TB整体柱上实现了对TB消旋体的快速分离.另外,以碱性单体2-二甲基乙基胺甲基丙烯酸酯(DAMA)为功能单体,在毛细管中采用原位聚合法制备了毛细管分子印迹整体柱,用于在毛细管电色谱(CEC)中对消旋体1,1'-联-2-萘酚(BNL)进行手性分离.结果表明,以DAMA为功能单体可以制备其他酸性模板的分子印迹聚合物,从而扩大了分子印迹聚合物(MIP)在CEC分离中的应用范围.     

对羟基苯甲酸分子印迹毛细管电色谱整体柱的制备与评价

<正>分子印迹(MIP)是合成预定选择性固定相的新兴技术[1-3],毛细管电色谱(CEC)是一种新型高效微分离技术[4-5],CEC和MIP相结合是当前的前沿课题之一。以对羟基苯甲酸为模板分子,采用在线热聚合制备毛细管电色谱整体柱的研究取得了满意的效果[6-7];以布洛芬为模板分子,以2-乙烯基吡啶为功能单体制备分子印迹毛细管电色谱整体柱,成功用于分离布洛芬同分异构体[8],以(S)-腺苷蛋氨酸为模板分子,采用热引发一步法制备分子印迹毛细     

4-氨基吡啶印迹聚合物毛细管整体柱的电色谱识别机理

在石英毛细管中原位聚合制备了4-氨基吡啶印迹聚合物毛细管整体柱，通过考察流动相中乙腈比例对4-氨基吡啶、2-氨基吡啶和硫脲在分子印迹聚合物毛细管整体柱、空白聚合物毛细管整体柱和硅烷化衍生的开管柱上迁移时间和分离情况的影响，研究了4-氨基吡啶分子印迹聚合物毛细管整体柱的CEC识别机理。发现有机添加剂的含量对印迹聚合物的印迹识别能力影响很大，甚至能改变混合物的流出顺序。根据随乙腈含量改变混合物迁移时间和流出顺序的变化规律，可以推测：随着乙腈含量的提高，色谱保留对迁移的影响越来越大；随着乙腈含量的降低，电泳对迁移的影响越来越大。     

以分子印迹聚合物为固定相分离和测定氟喹诺酮类药物

以氧氟沙星作为模板分子合成了分子印迹聚合物,并通过高效液相色谱法研究了印迹聚合物的识别特性。实验结果表明,印迹聚合物对模板分子具有很强的亲和力和特定的选择性。作为色谱固定相,氧氟沙星印迹聚合物和目标分子之间的相互作用除了印迹部分的离子和氢键作用外,也存在非印迹部分的疏水作用。同时研究了色谱条件对氟喹诺酮类药物分离的影响。     

反相气相色谱研究金属离子中介甲醛印迹聚合物的气相识别

采用配位聚合法制备了Co2+中介的甲醛印迹聚合物,用红外光谱和扫描电镜研究了分子印迹聚合物的表面结构。以甲醛印迹聚合物作为气相色谱固定相,采用反相气相色谱技术研究了印迹材料对模板及其结构相似物的选择保留性能、等温吸附及吸附热力学,并探讨了分子印迹聚合物对室内空气中甲醛的脱除效果。结果表明,在相同色谱条件下,分子印迹柱对模板分子的容量因子均远高于乙醛。较低柱温和较低载气流速有利于印迹材料对气态模板分子的选择保留,当柱温为90℃,载气流速7.0 mL/min,进样体积为3.0μL时,分子印迹柱对模板的容量因子高达61.1,对模板及结构类似物的分离因子达到10.66。模板分子在印迹聚合物柱上的气相吸附等温线呈近似线性,而结构类似物乙醛的吸附等温线符合BET吸附的Ⅲ类模型。分子印迹聚合物对室内空气中的甲醛也具有一定的脱除能力。     

分子印迹聚合物在毛细管电色谱拆分手性药物中的研究进展

手性药物通过与生物体内生物大分子之间的手性匹配与分子识别来发挥药理作用。两个对映体与体内手性环境相互作用的不同导致每个对映体表现出不同的药理活性、代谢过程、代谢速率及毒性等药代动力学特征。因此发展手性药物的拆分方法,对于手性药物的开发和生产过程的质量监控具有重要意义。分子印迹聚合物(MIPs)是以目标分子作为模板而制备的高分子聚合物,它具有特定的空间分子结构和官能团,对目标分子具有高度的特异性识别能力。基于该特点,MIPs非常适合于手性药物的拆分和纯化。毛细管电色谱(CEC)可同时基于毛细管电泳和液相色谱的分离机理对目标物进行分离,因此具有高分离效率和高选择性的特点。将MIPs材料作为CEC的固定相,可将这两种技术的优势结合,从而实现对手性药物的高效拆分。MIPs材料在1994年首次应用于CEC手性拆分,此后该研究领域开始获得关注和发展。MIPs材料主要通过4种模式在CEC中实现手性拆分,分别是作为开管柱、填充柱和整体柱的固定相以及分离介质中的准固定相。该综述以这4种模式作为分类基准,根据MIPs制备所需的材料和分离对象对其在CEC手性拆分中的应用进行了总结,揭示了MIPs在CEC手性...     

Recognition of oxytocin by capillary electrochromatography with monolithic tetrapeptide-imprinted polymer used as the stationary phase

Using YPLG (Tyr-Pro-Leu-Gly), a tetrapeptide, as the template, an imprinted monolithic column was prepared and applied to the selective recognition of oxytocin based on the epitope approach and capillary electrochromatography (CEC). By optimizing the polymerization solution in terms of functional monomer, cross-linking reagent, porogen, and imprinted template via CEC evaluations of synthesized columns, an imprinted monolith with good recognition capacity (the imprinting factors for YPLG and oxytocin were 4.499 and 4.013, respectively) and high column efficiency (theoretical plates for YPLG and oxytocin were 22,995 plates/m and 16,952 plates/m, respectively) was achieved. In addition, the effects of various experimental parameters on the recognition of oxytocin, including the organic modifier content, the buffer concentration, and the pH value, were studied systematically. Furthermore, a mixture of oxytocin and other proteins was analyzed using this monolithic CEC column, and oxytocin was eluted much more slowly than other large biomolecules, which demonstrated the high selective recognition ability of such an imprinted monolith for oxytocin with PLG (Pro-Leu-Gly) as the epitope. Figure Separation of a mixture of oxytocin, BSA, bovine hemoglobin, ovalbumin, and lysozyme on the open column, the blank monolithic column, and the monolithic YPLG-imprinted column     

Mechanism of molecular recognition on molecular imprinted monolith by capillary electrochromatography

The recognition mechanism of molecularly imprinted polymer (MIP) in capillary electrochromatography (CEC) is complicated since it possesses a hybrid process, which comprises the features of chromatographic retention, electrophoretic migration and molecular imprinting. For an understanding of the molecular recognition of MIP in CEC, a monolithic MIP in a capillary with 1,1'-binaphthyl-2,2'-diamine (BNA) imprinting was prepared by in situ copolymerization of imprinted molecule, methacrylic acid and ethylene glycol dimethacrylate in porogenic solvent, a mixture of toluene-isooctane. Strong recognition ability and high column performance (theory plates was 43,000 plates/m) of BNA were achieved on this monolithic MIP in CEC mode. In addition, BNA and its structural analogue, 1,1'-bi-2, 2'-naphthol, differing in functional groups, were used as model compounds to study imprinting effect on the resultant BNA-imprinted monolithic column, a reference column without imprinting of BNA and a open capillary. The effects of organic modifier concentration, pH value of buffer, salt concentration of buffer and column temperature on the retention and recognition of two compounds were investigated. The results showed that the molecular recognition on MIP monolith in CEC mode mainly derived from imprinting cavities on BNA-imprinted polymer other than chromatographic retention and electrophoretic migration.     

Preparation and characterization of grafted imprinted monolith for capillary electrochromatography

In this paper, a molecularly imprinted polymer (MIP) coating grafted to a trimethylolpropane trimethacrylate (TRIM) core material for CEC was reported. The core monolith was prepared with a solution of 20% (w/w) TRIM in a mixture of porogen and a polymerization precursor, which can generate a stable electroosmotic flow due to the formation of ionizable groups after postpolymerization hydrolization. Graft polymerization took place on the resultant TRIM monolith with a mixture of template, methacrylic acid, and ethylene glycol dimethacrylate. Strong recognition ability (selectivity factor was 5.83) for S‐amlodipine and resolution of enatiomers separation (up to 7.99) were obtained on the resulting grafted imprinted monolith in CEC mode. The influence of CEC conditions on chiral separation, including the composition of mobile phase, pH value, and the operating voltages was studied. These results suggest that the method of grafted polymerization reported here allows a rapid development of MIP monolith once core materials with desired properties are available, and is a good alternative to prepare CEC‐based monolithic MIPs.     

Dual‐templates molecularly imprinted monolithic columns for the evaluation of serotonin and histamine in CEC

To extend the application of molecularly imprinted polymers, the dual‐templates molecularly imprinted monolithic columns were developed in a capillary format. Two templates serotonin and histamine were simultaneously imprinted using two different functional monomers such as methacrylic acid (MAA) and methylenesuccinic acid (MSA) in a mixture of ethylene glycol dimethacrylate (EDMA) as a cross‐linker and AIBN as polymerization initiator dissolved in DMF as porogen. The resulting molecular imprinted polymers (MIPs) were characterized based on their performance in the CEC separation of two imprinted templates. The optimization parameters such as pH, ACN composition, and concentration of the eluent were varied to achieve best resolution and efficiency for CEC separation of templates with each MIP column. It was found that the MIP monolith column fabricated using MSA offered better resolution and separation efficiency compared to column fabricated with MAA. This work utilized the dual‐templates imprinting approach successfully and broadens the scope of multi‐templates imprinting capabilities in capillary format in CEC application.     

A molecularly imprinted monolith for the fast chiral separation of antiparasitic drugs by pressurized CEC

Molecularly imprinted polymer (MIP) monoliths with (S)‐ornidazole ((S)‐ONZ) as the template molecule have been designed and prepared by the simple thermal polymerization of methacrylic acid, 4‐vinylpyridine, and ethylene dimethacrylate in the presence of a binary porogenic mixture of toluene and dodecanol. The influences of polymerization mixture composition on the chiral recognition of ONZ have been evaluated, and the imprint effect in the optimized MIP monolith has been clearly demonstrated. The new monolithic stationary phase with optimized porous property and good selectivity was used for the chiral separation of ONZ by pressurized CEC. The pressurized CEC conditions were also optimized to obtain the good chiral separation. The enantiomers were rapidly separated within 9 min on the MIP‐based chiral stationary phase, whereas the chiral separation was not obtained on the nonimprinted polymer. Additionally, the proposed method has been successfully applied to the chiral separation of ONZ in tablet samples by injection of the crude sample. The cross‐selectivity for similar antiparasitic drug was investigated. The results indicated that the chiral separation of secnidazole could also be obtained on the optimized MIP monolith within 14 min.     

分子印迹聚合物颗粒在毛细管电色谱中的应用

依据分子印迹技术(MIT)制备的分子印迹聚合物(MIP)颗粒对模板分子及其结构类似物具有特异性识别和选择性吸附作用,同时具有较大的比表面积和快速的传质动力学特性,因而被广泛用作液相色谱固定相和固相萃取材料。将MIP颗粒作为固定相应用于毛细管电色谱(CEC),结合了CEC的快速、高效和MIP的高亲和性、高选择性的特点,成为分析科学领域最具有发展前景的分离技术之一。MIP颗粒在CEC领域有几种不同的应用形式: 作为填充材料填充到毛细管柱中;作为嵌入材料嵌入到毛细管柱内部不同基质的骨架中;作为准固定相添加到CEC运行缓冲溶液中。本文综述了近几年MIP颗粒在CEC领域应用的发展,对该领域今后的发展前景进行了展望。     

Molecularly Imprinted Polymer Monolithic Column Separation of Isomers and Analogues of Vanillin by Capillary Electrochromatography

A vanillin imprinted capillary monolithic column was synthesized by in situ polymerization reaction using ethylene-glycol dimethacrylate as cross-linking monomer and methacrylic acid as functional monomer. Under the optimum conditions of capillary electrochromatography, this molecularly imprinted polymer （MIP）-based column showed high selectivity and could recognize not only template molecule vanillin but also positional isomer o-vanillin from their structural analogues.     

Analysis of phospholipids using an open‐tubular capillary column with a monolithic layer of molecularly imprinted polymer in capillary electrochromatography‐electrospray ionization‐tandem mass spectrometry

In this study, an open‐tubular capillary electrochromatography (OT‐CEC) column with a monolithic layer of molecularly imprinted polymer (MIP) based on methacrylic acid, ethylene glycol dimethacrylate, and 4‐styrenesulfonic acid was utilized for the simultaneous separation and characterization of phospholipid (PL) molecular structures by interfacing with electrospray ionization‐tandem mass spectrometry (ESI‐MS‐MS). Introducing an MIP‐based monolith along with charged species at the OT column made it possible to separate PL molecules based on differences in head groups and acyl chain lengths in CEC. For the interface of OT‐CEC with ESI‐MS‐MS, a simple nanospray interface utilizing a sheath flow was developed and the resulting OT‐CEC‐ESI‐MS‐MS was able to separate PL standards (phosphatidylserines, phosphatidylethanolamines, phosphatidylglycerols, phosphatidic acid, and lysophosphatidylglycerols). The developed method was applied to human urinary lipid extracts, and resulted in the separation and structural identification of 18 molecules by data‐dependent collision‐induced dissociation.     

Preparation and Characterization of Trans‐Resveratrol Imprinted Polymers

Abstract

In order to selectively extract trans‐resveratrol from Chinese herbs, molecularly imprinted polymers (MIPs) were prepared with trans‐resveratrol as the template molecule. The influences of porogenic solvents and functional monomers on the recognition properties of the polymer were studied. The MIP, which was prepared in acetone using 4‐vinylpyridine as functional monomer, displayed good affinity and recognition property for the template molecule. This indicates that the 4‐vinylpyridine can form hydrogen‐bonding or ionic interaction with trans‐resveratrol. Experimental result also indicated that the MIP column can separate trans‐resveratrol from matrix components in the Polygonum cuspidatum extract.