2,4-二氯苯氧乙酸分子印迹整体柱的制备、表征及色谱性能研究

以2,4-二氯苯氧乙酸分子为模板,甲基丙烯酸为单体,乙二醇二甲基丙烯酸酯为交联剂,甲苯和十二醇为混合致孔剂,采用热引发原位聚合法制备了作为高效液相色谱固定相的分子印迹整体柱.用红外光谱、扫描电镜、比表面积分析法对聚合物进行了表征.考察了模板分子在不同条件下合成的印迹整体柱及空白整体柱上容量因子的变化规律,同时探讨了流动相中甲醇的体积分数、pH值、流速对印迹整体柱分离性能的影响.结果表明,在优化的合成条件下制备的分子印迹整体柱可在15 min内分离2,4-二氯苯氧乙酸及其类似物苯氧乙酸,分离度为1.52.对柑桔提取液进行了分离测试,结果满意.     

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     

《色谱》第25卷总目次

色谱固定相专栏121引言张玉奎,邹汉法122整体材料研究进展及其在微柱分析领域中的应用朱贵杰,张丽华,梁振,张维冰,张玉奎129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欧俊杰,董靖,吴明火,孔亮,邹汉法135亲和色谱中配基的筛选与应用赵睿,刘国诠142有机聚合物整体柱     

引言

色谱柱是色谱分离分析的“心脏”,而色谱柱的分离性能主要由色谱固定相的性质所决定;因此,液相色谱技术的发展与色谱固定相的创新密切相关,如近年来细粒度(＜3 [WTBZ]μ[WTB4]m)固定相的研制成功为高压液相色谱(UHPLC)技术的发展奠定了基础。色谱固定相一直以来也是色谱研究领域的前沿和热点。近年来,整体柱材料、超细色谱固定相和基于介孔纳米材料的固定相等制备技术得到了快速发展,其在复杂样品的高效分离分析和样品预处理中的应用也获得了广泛的关注,并取得了重要进展。     

分子印迹在线固相萃取分离奥克托今合成反应中间体

采用分子印迹在线固相萃取和液相色谱-质谱联用技术建立了奥克托今合成反应中间体1,3,5,7-四乙酰基-1,3,5,7-四氮杂环辛烷(TAT)与1,3,5-三乙酰基-1,3,5-三氮杂环己烷(TRAT)的分离鉴定方法。固相萃取填料采用TAT分子印迹聚合物,液相色谱分离检测采用亲水色谱柱。首先以乙腈为固相萃取柱上样溶剂,流速为0.1 mL/min,然后以乙酸乙酯淋洗萃取柱,用甲醇洗脱,并以甲醇为流动相对洗脱溶液进行液相色谱分离,与质谱仪联用鉴定各分离组分。在上述条件下,TAT回收率在79％~93％,检出限为1.8 mg/L (3σ),线性范围为6.0~500.0 mg/L,富集倍数400倍。     

序言

色谱柱是色谱分离分析的“心脏”，液相色谱技术的每一次重大进展都与分离固定相的突破密切相关。如上世纪70年代末期高效液相色谱技术的建立和90年代初期“灌流色谱”（Perfusion Chromatography）的发展都是基于多孔硅胶和“穿透孔”分离固定相的发展。近年来，基于特殊孔结构的1．5～2．0μm高强度复合材料的制备成功地催生了超高效液相色谱（UPLC）分离技术，而整体柱材料作为新一代的分离介质，已成为色谱领域广泛研究的前沿课题之一，并已经在样品预处理、手性分离、生物分离分析等领域获得十分广泛的应用。我国色谱研究工作者在多孔硅胶固定相、手性分离固定相、亲和色谱固定相和整体柱固定相等研究领域都取得了重大的进展，有些方面的研究工作已达到或领先于国际先进水平。     

苯丙氨酸衍生物的色谱手性拆分——采用分子印迹聚合物作为色谱固定相

合成苯丙氨酸衍生物的分子印迹聚合物作为色谱固定相，对其对映异构体进行手性拆分；流动相中加入乙酸增加极性，分离效果较好，但乙酸含量太高，分离因子会降低，甚至会破坏柱材料，进样样品浓度越低，分离效果越好，色谱柱温度升高，分离因子α会增大，温度为65℃时α为1．82；观察了分子印迹聚合物的微观结构。     

弱阳离子交换毛细管液相色谱整体柱的制备及其对蛋白质的分离

毛细管液相色谱柱具有节省样品、流动相,固定相消耗少,提高检测灵敏度等优点[1].近年来,随着蛋白组学的发展,毛细管离子交换液相色谱受到重视.目前蛋白组学中占有重要地位的多维液相色谱-质谱联用技术中,第一维液相色谱大多采用毛细管离子交换色谱柱[2].目前采用的颗粒填充毛细管柱柱压较高,易被蛋白质污染,且价格昂贵,使用寿命短.整体柱[3]具有大孔结构,柱背压低,对流传质使传质速率加快,制备过程简单,由于溶质与基质的接触时间短,降低了生物样品失活的可能性.与强阳离子交换固定相相比较,弱阳离子交换固定相与生物分子的相互作用比较温和,因此不易发生蛋白质变性现象.目前报道的弱阳离子交换整体柱通常采用两步法改性[4]:先用乙二胺处理,再用氯乙酸反应.我们在选取的具有良好刚性和渗透性的整体固定相上,利用亚胺乙二酸进行一步改性,简化了合成步骤,获得了具有羧酸基团的弱阳离子交换毛细管整体柱,并考察了其对于蛋白的分离能力.     

化学工业出版社化学专业图书推荐

正《液相色谱分离材料——制备与应用》欧俊杰、邹汉法等编著本书以固定相分类,系统介绍了各种液相色谱分离材料和整体柱的制备及应用技术,内容包括:球形硅胶微球固定相、有机聚合物     

士的宁分子印迹整体柱的制备

以士的宁为模板分子，甲基丙烯酸为功能单体，乙二醇二甲基丙烯酸酯作为交联剂，甲苯和十二醇混合溶液为致孔剂，用原位分子印迹技术，合成了士的宁分子印迹整体柱。通过优化合成条件，结果显示：模板分子、功能单体与交联剂之间的比例以1：4：16最佳，致孔剂中甲苯的最佳含量为18％（V/V)；对士的宁整体柱的色谱条件包括流动相组成、流速、柱温等进行了考察，并用于士的宁和马钱子碱的分离，其分离因子为3．5。     

Preparation of imprinted monolithic column under molecular crowding conditions

Molecular crowding is a new concept to obtain molecularly imprinted polymers(MIPs) with greater capacity and selectivity.In this work,molecular crowding agent was firstly applied to the preparation of MIPs monolithic column.A new polymerization system based on molecular crowding surrounding was developed to prepare enrofloxacin-imprinted monolith,which was composed of polystyrene and tetrahydrofuran.The result showed that the monolithic MIPs under molecular crowding conditions presented good molecular recognition for enrofloxacin with an imprinting factor of 3.03.     

三甲氧基苄啶分子印迹整体柱的制备及色谱性能

选择甲基丙烯酸为功能单体\, 甲基丙烯酸乙二醇双酯为交联剂, 制备了三甲氧基苄啶分子印迹整体柱, 对整体柱材料的形貌进行了表征, 并且研究了TMP和5种磺胺类药物在分子印迹整体柱上的色谱行为.     

Rapid and efficient chiral separation of nateglinide and its L-enantiomer on monolithic molecularly imprinted polymers

A monolithic molecularly imprinted polymer (monolithic MIP) was designed and prepared for chiral separation of nateglinide and its L-enantiomer. The enantiomers were rapidly separated on this novel monolithic MIP based chiral stationary phase (MIP-CSP), whereas the enantioseparation was not obtained on the non-imprinted polymer (NIP). Chiral recognition was found to be dependent on the stereo structures and the arrangement of functional groups of the imprinted molecule and the cavities on MIP. Thermodynamic data (deltadeltaH and deltadeltaS) obtained by Van't Hoff plots revealed an enthalpy-controlled enantioseparation. The binding capacity was evaluated by frontal analysis. Monolithic nateglinide-MIP had an effective number of binding sites Bt = 41.15 micromol g(-1) with a dissociation constant of Kd = 7.40 mM. The morphological characteristics of the monolithic MIP were investigated by pore analysis and scanning electron microscope (SEM). Results showed that both mesopores and macropores were formed in the monolith. Over all, this study presents a new and practical possibility for providing high rates of mass transfer, fast separations and high efficiencies without the pressure constraints of the traditional bulk molecularly imprinted polymers, through the monolithic MIPs.     

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手性拆分中的潜力,同时评述了这4种模式各自的优势与不足,并对将来MIPs在CEC手性拆分中的发展进行了展望。     

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.     

Synthesis and evaluation of ginsenosides imprinted polymer-based chromatographic stationary phase

The molecular imprinting technique has aroused great interest in preparing novel stationary phases, and the resulting materials named molecularly imprinted polymers coated silica packing materials exhibit good performance in separating diverse analytes based on their good characteristics (including high selectivity, simple synthesis, and good chemical stability). To date, mono-template is commonly used in synthesizing molecularly imprinted polymers-based stationary phases. The resulting materials always own the disadvantages of low column efficiency and restricted analytes, and the price of ginsenosides with high purity was very high. In this study, to overcome the weaknesses of molecularly imprinted polymers-based stationary phases mentioned above, the multi-templates (total saponins of folium ginseng) strategy was used to prepare ginsenosides imprinted polymer-based stationary phase. The resulting ginsenosides imprinted polymer-coated silica stationary phase has a good spherical shape and suitable pore structures. Additionally, the total saponins of folium ginseng were cheaper than other kinds of ginsenosides. Moreover, the ginsenosides imprinted polymer-coated silica stationary phase-packed column performed well in the separation of ginsenosides, nucleosides, and sulfonamides. The ginsenosides imprinted polymer-coated silica stationary phase possesses good reproducibility, repeatability, and stability for seven days. Therefore, a multi-templates strategy for synthesizing the ginsenosides imprinted polymer-coated silica stationary phase is considered in the future.     

Preparation and characterization of imprinted monolith with metal ion as pivot

This report provided the first example of using pivot concept to prepare monolithic molecularly imprinted polymers (MIPs) with ketoprofen (KET) imprints, in which metal ions were employed as mediator between the functional monomer and the template to achieve higher fidelity of imprint. To solve metal ions in pre-polymerization system, a new ternary porogen of dimethyl sulfoxide-toluene-isooctane was developed for preparation of MIP monoliths with high porosity and good permeability. The effect of polymerization parameters such as the nature of metal ions, the ratio of template to metal ion and the degree of crosslinking, on the permeability, morphology and affinity of the metal ion mediated MIP monolith were studied. The experiments demonstrated that Ni(2+), Co(2+) and Zn(2+) can be applied as pivot to prepare KET-imprinted monolith. Relative to monolithic MIP without metal ions, all the ion-mediated macropore MIP monoliths showed enhanced permeability, capacity factor and selectivity factor. High permeability (1.06×10(-7)mm(2)) was obtained on the Co(2+)-mediated MIP monolith and great selectivity factor (3.84) was achieved on the Ni(2+)-mediated one. The stoichiometric displacement model was constructed to investigate the recognition mechanism of metal-ion mediated MIP. The results indicate that metal ion as pivot not only improves the affinity but also allows the fine-tuning on the macroporous structure of MIP monolith.     

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.     

Carprofen-imprinted monolith prepared by reversible addition–fragmentation chain transfer polymerization in room temperature ionic liquids

To obtain fast separation, ionic liquids were used as porogens first in combination with reversible addition–fragmentation chain transfer (RAFT) polymerization to prepare a new type of molecularly imprinted polymer (MIP) monolith. The imprinted monolithic column was synthesized using a mixture of carprofen (template), 4-vinylpyridine, ethylene glycol dimethacrylate, [BMIM]BF₄, and chain transfer agent (CTA). Some polymerization factors, such as template-monomer molar ratio, the degree of crosslinking, the composition of the porogen, and the content of CTA, on the column efficiency and imprinting effect of the resulting MIP monolith were systematically investigated. Affinity screening of structurally similar compounds with the template can be achieved in 200 s on the MIP monolith due to high column efficiency (up to 12,070 plates/m) and good column permeability. Recognition mechanism of the imprinted monolith was also investigated.     

Preparation and Evaluation of Propranolol-Imprinted Monolithic Stationary Phase by In Situ Technique and Application in Analysis of Propranolol in Biological Samples

Abstract

A propranolol molecule-imprinted monolithic stationary phase (MIMSP) was synthesized by in situ technique. The recognition mechanism of the polymers and the influences of some chromatographic conditions were examined by high-performance liquid chromatography (HPLC). The imprinted polymers showed much higher selectivity for β-blockers than the nonimprinted polymers (NIPs) did, which proves the successful preparation of propranolol-imprinted polymers by using an in situ technique. Then, this technique was used to prepare a molecularly imprinted polymer solid-phase extraction column to concentrate propranolol from biological samples. The results showed that the imprinted solid-phase extraction column could selectively enrich and purify propranolol from biological samples, such as plasma.