分子印迹样品前处理技术的研究进展

样品前处理是分析过程的关键环节,直接影响着分析结果的准确度和精密度．分子印迹聚合物具有特异性识别能力,能从复杂样品中选择性分离富集目标物,在复杂样品前处理领域中有重要的发展潜力和应用前景．本文综述了近年来分子印迹样品前处理技术的研究进展,包括分子印迹固相萃取、分子印迹固相微萃取、分子印迹膜萃取等样品前处理技术．     

印迹技术在痕量金属分离和富集中的应用

在发展的制备分子识别功能材料的新技术。用印迹技术制备的分子印迹聚合物和离子印迹聚合物的优点是：高度预定的选择性、识别性和实用性。印迹技术与固相微萃取联用在痕量组分的选择性分离和预富集方面有着广阔的应用前景。本文介绍了近年来印迹技术在痕量金属选择性分离和预富集中的应用进展,并分别详细阐述了Hg(II)、镉、铜、镍、钴、锌、铅、UO22＋、丁基锡和三苯基锡印迹聚合物的制备及其在环境、食品、生物及医药样品中的分析应用。     

替代模板分子印迹技术在样品前处理中的应用

分子印迹聚合物具有抗恶劣环境、选择性高、稳定性好等特点,广泛应用于复杂样品的前处理。采用结构类似物作为替代模板分子,可以解决分子印迹聚合物制备时目标物溶解性差的问题,替代模板分子印迹聚合物不仅对目标分析物具有选择性识别能力,还可以避免模板泄露对痕量分析造成的影响。本文综述了替代模板分子印迹技术在样品前处理中的应用进展,包括替代模板分子印迹技术在固相萃取、固相微萃取、色谱固定相、基质固相分散萃取中的应用,最后对替代模板分子印迹技术在未来的样品前处理中的研究进行了展望。     

加替沙星分子印迹聚合物的制备及其应用

以加替沙星为模板分子,采用溶胶-凝胶分子印迹技术,合成具有分子识别作用的新型有机-无机杂化分子印迹聚合物,对其进行吸附性能研究证明了印迹聚合物对加替沙星的专一吸附性能。以该印迹聚合物为固相萃取材料填充固相萃取柱,优化固相萃取条件,结合超高效液相色谱法,对牛奶样品进行检测。建立了分子印迹固相萃取方法,分离富集并检测牛奶中的加替沙星,其回收率为79.87%,富集倍数为38,高于市售C18柱,具有一定的实际应用价值。     

一种高选择性固相萃取吸附剂--分子印迹聚合物

固相萃取是对样品富集、分离的一种有效方法,因而得到广泛应用.分子印迹是近些年发展起来的新技术,由于分子印迹聚合物具有高的选择性,被应用于环境、药物、生物、食品等样品的分析.本文介绍了固相萃取和分子印迹技术的原理以及两者结合用于固相萃取的过程,对近10年来国内外分子印迹聚合物应用于固相萃取的研究工作进行了总结和评述,并对其将来的发展进行了展望.     

分子印迹技术在样品前处理中的应用

分子印迹聚合物具有选择性高、稳定性好及制备简单的特点,可用于生物、医药、环境样品等复杂基体中痕量分析物的高选择性分离与富集,因此在样品前处理中的应用特别引人关注.本文介绍了分子印迹技术的基本原理,综述了分子印迹技术在样品前处理中应用的研究进展.     

搅拌棒吸附萃取技术

搅拌棒吸附萃取技术的提出至今已有二十年,其源于固相微萃取,却有更高的固定相体积、萃取容量和萃取回收率。搅拌棒吸附萃取作为一种高效的样品前处理方法,广泛应用于环境样品、食品样品、药物样品和挥发性物质的分离富集。搅拌棒的核心是涂层,目前已有商品化涂层、自制分子印迹聚合物涂层和自制非印迹涂层。本文介绍了搅拌棒吸附萃取的基本原理,系统评述了各种搅拌棒吸附萃取涂层的发展和应用研究进展,并介绍了一些新颖的搅拌棒萃取模式,最后对搅拌棒吸附萃取技术的发展进行了总结和展望。     

分子印迹固相萃取技术检测江水、尿液及牛奶中雌激素残留

以β-雌二醇和炔雌醇的分子印迹聚合物为填料制备固相萃取小柱,选择60%(V/V)甲醇-水溶液作为雌激素的淋洗液,甲醇-乙酸(9:1,V/V)为洗脱液,洗脱两次可彻底洗脱固相萃取小柱中目标分子.以建立的萃取条件对上海黄浦江水、尿液、牛奶中雌激素进行富集,结合高效液相色谱法,建立了基于分子印迹固相萃取技术检测上述实际样品中...     

分子印迹固相萃取牛奶中甲胺磷

以甲胺磷为印迹分子、α-甲基丙烯酸为功能单体及三羟甲基丙烷三丙烯酸酯为交联剂,通过悬浮聚合法制备甲胺磷分子印迹聚合物(MIP)微球,并用该聚合物进行了牛奶中甲胺磷残留的固相萃取研究.静态吸附实验表明,在结构相似物乙酰甲胺磷和水胺硫磷为竞争底物存在下,MIP对甲胺磷有良好的吸附识别能力.在优化条件下,印迹分子的固相萃取回收率达96.4%,能够用于甲胺磷的富集,而空白聚合物却不具备这样的特性.当实际牛奶样品中甲胺磷、乙酰甲胺磷和水胺硫磷加标水平为100μg/kg时,甲胺磷回收率达87.4%,乙酰甲胺磷和水胺硫磷的回收率低于15%.结果表明分子印迹固相萃取对甲胺磷有很好的专一选择性,且回收率能够满足农药残留分析要求.在相同实验条件下,与C18固相萃取柱进行比较,分子印迹固相萃取的选择性及样品净化能力优势明显.     

分子印迹固相萃取技术在天然产物有效成分分离分析中的应用进展

天然产物体系复杂,尤其是一些活性成分含量较低,采用一般的方法对其进行分离富集难度较大。分子印迹聚合物具有良好的亲和性和专一的选择性,将分子印迹固相萃取技术应用于天然药物资源样品前处理过程,能够选择性地分离富集复杂基质中的目标成分。本文对近几年分子印迹固相萃取技术在天然产物有效成分分离分析中的应用进行了总结,分析物包括黄酮类、多元酚类、生物碱类、有机酸类、苯丙素类、萜类以及其他一些类型的生物活性成分。     

分子印迹聚合物固相萃取研究进展

对最新报道的分子印迹聚合物作为固相萃取剂及其在色谱样品前处理方面的应用进行综述和展望,主要包括固相萃取、基质固相分散萃取、固相微萃取、搅拌棒吸附萃取和磁性材料萃取,同时总结了分子印迹聚合物制备技术面临的挑战和问题,提出了可能的解决方案。     

Simple and selective extraction of quercetin with microextraction in packed syringe method using modified glass powder by a molecularly imprinted polymer followed by spectrophotometric determination

A new sample preparation method based on microextraction in packed syringe was developed for preconcentration of quercetin prior to its spectrophotometric determination. Molecularly imprinted polymers as packing material was used for higher extraction efficiency. First, glass powder as support material because of low cost and available substrate was modified, and then molecularly imprinted polymers were synthesized by the sol–gel method using 3-aminopropyltriethoxysilane as a functional monomer and tetraethyl orthosilicate as cross-linker agent. The combination of a molecularly imprinted polymers and microextraction in packed syringe increased the selectivity and sensitivity. The surface morphology and functionality of the prepared molecularly imprinted polymers was characterized using Fourier-transform infrared spectroscopy, Field emission scanning electron microscopy, energy dispersive X-ray spectroscopy, and thermogravimetric analysis. Different influencing parameters on extraction efficiency such as effect of the number of sample sorption/desorption cycles, type and volume of desorption solvent, pH of the sample solution, and molecularly imprinted polymers amounts were optimized. Under the optimum condition, the proposed method displayed a linear range from 0.01 to 5 µg mL⁻¹ and limit of detection 3.68 ng mL⁻¹. Relative standard deviation for three replicate determination of 1 µg mL⁻¹ quercetin was 2.1 %. The proposed method was applied successfully for the selective extraction of quercetin from tea and coffee samples.     

Recent advances and applications of molecularly imprinted polymers in solid‐phase extraction for real sample analysis

Sample pretreatment is essential for the analysis of complicated real samples due to their complex matrices and low analyte concentrations. Among all sample pretreatment methods, solid‐phase extraction is arguably the most frequently used one. However, the majority of available solid‐phase extraction adsorbents suffer from limited selectivity. Molecularly imprinted polymers are a type of tailor‐made artificial antibodies and receptors with specific recognition sites for target molecules. Using molecularly imprinted polymers instead of conventional adsorbents can greatly improve the selectivity of solid‐phase extraction, and therefore molecularly imprinted polymer‐based solid‐phase extraction has been widely applied to separation, clean up and/or preconcentration of target analytes in various kinds of real samples. In this article, after a brief introduction, the recent developments and applications of molecularly imprinted polymer‐based solid‐phase extraction for determination of different analytes in complicated real samples during the 2015‐2020 are reviewed systematically, including the solid‐phase extraction modes, molecularly imprinted adsorbent types and their preparations, and the practical applications of solid‐phase extraction to various real samples (environmental, food, biological, and pharmaceutical samples). Finally, the challenges and opportunities of using molecularly imprinted polymer‐based solid‐phase extraction for real sample analysis are discussed.     

Preparation and application of molecularly imprinted polymer solid‐phase microextraction fiber for the selective analysis of auxins in tobacco

As signal molecules, auxins play an important role in mediating plant growth. Due to serious interfering substances in plants, it is difficult to accurately detect auxins with traditional solid‐phase extraction methods. To improve the selectivity of sample pretreatment, a novel molecularly imprinted polymer ‐coated solid‐phase microextraction fiber, which could be coupled directly to high‐performance liquid chromatography, was prepared with indole acetic acid as template molecule for the selective extraction of auxins. The factors influencing the polymer formation, such as polymerization solvent, cross‐linker, and polymerization time, were investigated in detail to enhance the performance of indole acetic acid‐molecularly imprinted polymer coating. The morphological and chemical stability of this molecularly imprinted polymer‐coated fiber was characterized by scanning electron microscopy, infrared spectrometry, and thermal analysis. The extraction capacity of the molecularly imprinted polymer‐coated solid‐phase microextraction fiber was evaluated for the selective extraction of indole acetic acid and indole‐3‐pyruvic acid followed by high‐performance liquid chromatography analysis. The linear range for indole acetic acid and indole‐3‐pyruvic acid was 1–100 µg/L and their detection limit was 0.5 µg/L. The method was applied to the simultaneous determination of two auxins in two kinds of tobacco (Nicotiana tabacum L and Nicotiana rustica L) samples, with recoveries range from 82.1 to 120.6%.     

Determination of Chlorogenic Acid and Rutinum in Herba Artemisiae Scopariae with Multitemplate Molecularly Imprinted Polymers for Solid-phase Extraction with High-performance Liquid Chromatography

Novel multitemplate molecularly imprinted polymers were prepared using mixtures of chlorogenic acid and rutinum as molecular templates, acrylamide as a functional monomer, divinylbenzene as the cross-linker, and 20:80 methanol:acetone as the porogen. The polymers were assessed for solid-phase extraction (SPE) for the purification of two compounds from Herba Artemisiae Scopariae. The synthesized molecularly imprinted polymers were identified by infrared spectroscopy and scanning electron microscopy. Systematic characterization of the functional monomer and porogens on the recognition properties of the molecularly imprinted polymers were carried out. Comparison with single-template molecularly imprinted polymers showed that the multitemplate molecular polymers exhibited higher selectivity and adsorption capacity for multiple analytes. The optimization of washing solvent as 1:9 acetone:water and the elution solvent as 9:1 acetonitrile:acetic acid provided a reliable analytical method with strong recognition toward multiple analytes in Herba Artemisiae Scopariae extracts with satisfactory recoveries of 89.6% for chlorogenic acid and 93.8% for rutinum. These results demonstrate that the multitemplate molecularly imprinted polymers coupled with SPE are effective for the selective purification of bioactive compounds in complex samples.     

Deep eutectic solvents for the purification of chloromycetin and thiamphenicol from milk

Deep eutectic solvents were used in both dispersive liquid–liquid microextraction and solid‐phase extraction for the purification of chloromycetin and thiamphenicol from milk. In the dispersive liquid–liquid microextraction procedure, deep eutectic solvents mixed with chloroform at different ratios (0:1–5:1, v/v) were used as the extraction agent to optimize the procedure, and the ratio of 2:1 v/v was found to be the best extraction agent with 87.23 and 83.17% recoveries of chloromycetin and thiamphenicol, respectively. Furthermore, deep eutectic solvents were also used to modify molecular imprinted polymers in solid‐phase extraction procedure, and the polymers were used to purify chloromycetin and thiamphenicol from milk. Fourier transform infrared spectroscopy, and nuclear magnetic resonance spectroscopy were used to characterize the polymers. The solid‐phase extraction recoveries with deep eutectic solvents with molecularly imprinted polymers (chloromycetin and thiamphenicol, two templates), molecularly imprinted polymers (without deep eutectic solvents), and nonimprinted polymers (without a template) for chloromycetin were 91.23, 82.64, and 57.3%, respectively, and recoveries for thiamphenicol were 87.02, 79.03, and 52.27%, respectively. The recoveries of chloromycetin and thiamphenicol from milk in the solid‐phase extraction procedure were higher than using deep eutectic solvents mixed with chloroform as the extraction agent in the dispersive liquid–liquid microextraction procedure.     

Molecularly imprinted polymer solid‐phase microextraction coupled with ultra high performance liquid chromatography and tandem mass spectrometry for rapid analysis of pyrrolizidine alkaloids in herbal medicine

Pyrrolizidine alkaloids are the most widely distributed natural toxins, and pyrrolizidine alkaloid‐containing herbal medicines are probably the most common poisonous plants affecting humans. We reported pyrrolizidine alkaloid‐molecularly imprinted polymer solid‐phase microextraction for the selective adsorption of toxic pyrrolizidine alkaloids from herbal medicine. A sulfonic compound, sodium allylsulfonate, was chosen as the functional monomer to interact with pyrrolizidine alkaloids through strong ionic interaction. To avoid template leakage and for the aim of cost saving, a relatively cheap dummy template was used for the fabrication of molecularly imprinted polymer‐solid‐phase microextraction fibers. The obtained fibers showed selective adsorption ability for four pyrrolizidine alkaloids, including europine, echimidine, lasiocarpine, and heliotrine. The extraction parameters, such as extraction time, extraction temperature, shaking speed, elution solvent and elution time, were optimized. Then ultra high performance liquid chromatography with mass spectrometry coupled with molecularly imprinted polymer‐solid‐phase microextraction method was developed for the fast and efficient analysis of four pyrrolizidine alkaloids from the model herbal plant Farfarae Flos. The established method was validated and exhibited satisfactory accuracy and precision. The present method provides an innovative and fast analytical strategy for the determination of trace toxic pyrrolizidine alkaloids in complicated samples.     

Facile preparation of polydopamine‐coated imprinted polymers on the surface of SiO2 for estrone capture in milk samples

Estrone molecularly imprinted polymers were synthesized through the self‐polymerization of dopamine on the surface of silica gels, which had the characteristics of mild polymerization conditions, simple reaction procedure and good specific recognition ability for estrone. The estrone molecularly imprinted polymers were characterized by scanning electron microscopy, Fourier transform infrared spectroscopy, thermogravimetric analysis, elemental analysis and nitrogen adsorption–desorption tests. The characterization confirmed that the imprinted polymers were successfully grafted on the surface of silica gels. Through investigating the adsorption performance, the prepared estrone molecularly imprinted polymers exhibited high adsorption capacity, fast mass transfer, as well as excellent selectivity toward estrone. The estrone molecularly imprinted polymers as the solid‐phase extraction adsorbent coupled with high‐performance liquid chromatography was developed to determine estrone from the milk samples. The developed estrone molecularly imprinted polymer solid‐phase extraction with high‐performance liquid chromatography method exhibited satisfactory specificity, precision, accuracy and good linearity relationship in the range of 0.2–20 μg/mL. The developed method is simple, fast, effective and high specificity method and it provides a new method to detect the residues of estrone in animal foods.