基于分子印迹技术光化学传感器的研究进展

本文综述了分子印迹技术在可视化光化学传感器方面的研究发展与应用现状,主要介绍了分子印迹聚合物与荧光探针、荧光试纸、光子晶体凝胶传感器、表面等离子体共振传感器相结合的优势互补、存在问题和研究热点。利用基于分子印迹技术的光化学传感检测技术可避免大型仪器的使用,为更加快速、便捷和低成本的检测方法提供了新思路,可望成为一种适用于农残监控、医学分析、食品安全、环境监测和安全检查等方面的快速检测分子印迹模板类微量物质的新方法。     

表面分子印迹传感器的应用研究进展

基于表面分子印迹技术发展起来的表面分子印迹传感器具有与生物传感器相媲美的选择识别性,同时还兼具易于制备、成本低廉、机械稳定性高和重复性好的优点,受到了国内外研究者的极大关注。与传统的气相、气-质、液相、液-质等色谱分析方法相比,表面分子印迹传感器集分离与测试于一体,不需要任何样品前处理步骤,因此测试更加简单、灵敏和快速,在药物传输、环境监测、食品安全、化学反应实时监测等方面获得广泛应用。本文综述了表面分子印迹传感器的分类、制备方法和应用领域,以及该技术面临的挑战和市场应用前景及未来趋势,为相关科研工作者提供研究参考。     

苏丹红Ⅰ印迹表面等离子共振传感器的制备与表征

以苏丹红I印迹的凝胶膜对模板分子的响应收缩为基础,利用表面引发聚合技术在表面等离子共振(SPR)芯片上制备了苏丹红I印迹SPR传感器,利用电化学和溶胀测量技术对传感器进行表征,建立了对苏丹红I的SPR检测方法。该方法的线性范围为8.0×10-10~1.0×10-8mol/L(R2=0.9987)。方法用于样品红辣椒粉和腌制品中苏丹红I的检测,其检出限分别为3.4×10-10和2.5×10-10mol/L。红辣椒粉中两个样品的相对标准偏差为1.38%和2.10%,腌制品试样的相对标准偏差为1.13%。说明该方法具有较高的灵敏度和较好的的重现性。     

基于分子印迹技术的电化学发光分析

基于分子印迹技术的电化学发光分析是近几年刚刚发展起来的新型分析方法,兼具分子印迹技术与电化学发光方法两者的优点,具有高灵敏度、高选择性、可控性好、易于微型化和操作简单等特点,在生命科学、食品安全及环境监测等领域有着广泛的应用前景。本综述简要介绍了常用的电化学发光体系和基本原理,综述了近年来分子印迹电化学发光分析的主要研究进展,对不同类型分子印迹电化学分析的构建方法、原理及所构建方法的性能(包括灵敏度、选择性、检测范围和稳定性等)进行了评述。基于分子印迹技术的电化学发光分析主要可以分为三类:制备固态发光电极、非固态发光电极构建分子印迹电化学发光传感器和分子印迹固相萃取与电化学发光分析联用,其中制备固态发光电极用于构建分子印迹电化学发光传感器最有发展前景。最后,本综述也对分子印迹电化学发光分析今后的发展趋势和方向进行了展望。     

孔雀石绿分子印迹表面等离子共振传感器的制备及分析应用

利用表面等离子共振(SPR)光谱,结合分子印迹技术,制备了孔雀石绿分子印迹SPR传感器,建立了检测孔雀石绿的分析方法。探讨了pH值对分子印迹膜吸附特性的影响,并在最佳pH下对其吸附选择性进行了考察。研究结果表明,与相应非印迹传感膜相比,孔雀石绿印迹传感膜对孔雀石绿具有较高的吸附选择性能。该方法测定河水及河泥中孔雀绿的线性范围为8.0×10-10~1.0×10-8 mol/L,检出限(S/N=3)分别为8.83×10-11 mol/L和1.55×10-10 mol/L,平均回收率分别为91.97%和93.88%,相对标准偏差分别为1.2%和2.1%。该方法具有简单、快速、灵敏度高、重复性好等特点,适用于河水和河泥中孔雀石绿的测定。     

表面等离子体共振技术在蛋白质-蛋白质相互作用研究中的应用

表面等离子共振(SPR)近年来迅速发展为用于分析生物分子相互作用的一项技术.该技术无需标记、特异性强、灵敏度高、样品用量小,可实现在线连续实时检测.目前SPR已被广泛应用于免疫学、蛋白质组学、药物筛选、细胞信号转导、受体/配体垂钓等领域.该文阐述了基于表面等离子体共振技术生物传感器的基本原理和技术流程,综述了SPR在蛋白质-蛋白质相互作用动力学研究、蛋白质结构及功能研究、蛋白质突变和碎片分析、信号转导中的应用以及SPR在蛋白质-蛋白质相互作用研究中的多项关键技术.指出SPR通过与光谱、电化学等多技术联用后,可以获得更加详实的信息.     

分子印迹-电化学发光技术研究进展

分子印迹-电化学发光技术具有分子印迹技术的高选择性及电化学发光技术的高灵敏性,以及发光易于调控、稳定性好、便于微型化和仪器操作简单等优点,已被广泛地应用于重金属检测、免疫传感技术、基因传感技术、酶传感技术、食品安全与药物分析等领域。该文结合本实验室的研究工作介绍了分子印迹电化学发光传感器的原理和构建思路。在此基础上,着重介绍了分子印迹电化学发光技术在食品安全与药物分析中的应用,并对其今后的研究趋势进行了展望。     

分子印迹荧光传感构建及应用

构建一个高灵敏、高选择性检测痕量分析物的传感器广受科研工作者关注。分子印迹技术由于具有高选择性识别、高容量吸附、快速结合、热稳定性以及低成本等优点,已广泛应用于传感构建领域。以分子印迹聚合物为识别单元,结合荧光传感技术所构建的分子印迹荧光传感器在环境污染物痕量检测方面成为研究重点。本文主要介绍分子印迹聚合物的制备方法,总结分子印迹荧光传感器的构建机理和分子印迹荧光传感器在金属离子、有机小分子以及生物大分子检测方面的应用。重点探讨分子印迹传感器在不同数量的荧光团下检测一种或多种目标分析物的方法,包括单一荧光团检测单一目标物、比率荧光检测单一目标物以及分子印迹荧光传感的多元检测。基于以上分析和总结,提出分子印迹荧光传感器的当前挑战和发展前景。     

分子印迹荧光传感器研究进展

分子印迹技术是结合高分子化学、分析化学、材料科学等发展起来的一门边缘学科,是模拟受体-抗体相互作用的一种新技术。分子印迹荧光传感器结合了分子印迹聚合物的预定识别性和高选择性以及荧光检测的高灵敏性,成为传感领域的研究热点。本文主要介绍了分子印迹荧光传感器的研究进展,重点概述了分子印迹荧光传感器的制备原理、检测方式及其在有机小分子和离子检测中的应用,并对其发展前景进行了展望。     

基于纳米材料增效的2,6-二叔丁基对甲酚分子印迹电化学传感器的研究及应用

以2,6-二叔丁基对甲酚(BHT)为模板分子,以邻氨基苯硫酚功能化的纳米金为功能单体制备分子印迹聚合物。利用表面修饰技术,将石墨烯和所制备的分子印迹聚合物修饰至电极表面构建基于纳米材料增效的分子印迹电化学传感器。在优化条件下,该传感器的线性检测范围为5×10–6~1×10–2 mol/L,最低检测限为1.56×10–6 mol/L,5次重复测定结果的相对标准偏差为4.6%,样品加标回收率为96.5%~104.0%。该分子印迹电化学传感器能够实现对BHT的特异性识别,具有良好的重复性和稳定性,可用于实际样品检测。     

In-situ polymerized molecularly imprinted polymeric thin films used as sensing layers in surface plasmon resonance sensors: Mini-review focused on 2010–2011

This review provides a short overview of polymeric thin films incorporating molecular imprints within their 3D macromolecular structure as synthetic recognition elements and prepared by in situ polymerization for surface plasmon resonance application. This review starts with a brief reminder of the principle of surface plasmon resonance detection. The second section is focused on molecularly imprinted materials. Bulk and thin film polymer formats can be obtained by free radical polymerization, where the functional monomer interacts specifically with the template and the cross-linker controls the rigidity of the imprinted cavities. Grafting polymerization is presented as a method of choice for covalent attachment of ultra-thin molecularly imprinted films on a surface plasmon resonance metallic substrate. Examples of electropolymerized thin films are also provided. In the rest of this contribution, surface plasmon resonance applications of molecularly imprinted polymers reported mainly over the last two years are presented with respect to the preparation mode. Also, applications of gold nanoparticle/molecularly imprinted polymer composites for the design of surface plasmon resonance-based sensors with enhanced sensitivity due to the phenomenon of localized surface plasmon resonance induced by the presence of gold nanoparticles are summarized.     

State-of-the-art molecular imprinted colorimetric sensors and their on-site inspecting applications

Molecular imprinted colorimetric sensors can realize visual semi-quantitative analysis without the use of any equipment. With the advantages of low cost, fast response, ease of handling, and excellent recognition ability, the molecular imprinted colorimetric sensor shows great application potential in the field of sample rapid assay. Molecular imprinted colorimetric sensors can be prepared in various forms to meet the needs of different sample determination, such as film, hydrogel, strip, and adsorption coating. In this review, the preparation methods for various types of molecularly imprinted colorimetric sensors are systematically introduced. Their applications in the field of on-site biological sample detection, drug detection, disease treatment, chiral substance detection and separation, environmental analysis, and food safety detection are introduced. The limitations encountered in the practical application are presented, and the future development directions prospect.     

面向食品安全分析的核酸适配体传感技术

食品中危害因子的检测一直是国内外食品安全领域致力解决的重要问题。核酸适配体是一类通过体外筛选技术得到的单链DNA或RNA,具有特异性强、稳定性好和靶分子广等特点,因而被广泛用于食品安全检测领域。近年来,随着纳米传感技术的快速发展,互补结合适配体和纳米材料的特殊性质,可实现对靶标物质的超灵敏、高选择性及快速检测。本文总结了近年来筛选的食品危害因子适配体,综述了面向食品安全检测的基于适配体传感和纳米材料修饰的分析检测技术的进展,主要包括比色法、荧光法、电化学法以及表面等离子体共振技术,并探讨了适配体传感检测所存在的问题和未来的发展趋势。     

Molecularly Imprinted Polymers Combined with Electrochemical Sensors for Food Contaminants Analysis

Detection of relevant contaminants using screening approaches is a key issue to ensure food safety and respect for the regulatory limits established. Electrochemical sensors present several advantages such as rapidity; ease of use; possibility of on-site analysis and low cost. The lack of selectivity for electrochemical sensors working in complex samples as food may be overcome by coupling them with molecularly imprinted polymers (MIPs). MIPs are synthetic materials that mimic biological receptors and are produced by the polymerization of functional monomers in presence of a target analyte. This paper critically reviews and discusses the recent progress in MIP-based electrochemical sensors for food safety. A brief introduction on MIPs and electrochemical sensors is given; followed by a discussion of the recent achievements for various MIPs-based electrochemical sensors for food contaminants analysis. Both electropolymerization and chemical synthesis of MIP-based electrochemical sensing are discussed as well as the relevant applications of MIPs used in sample preparation and then coupled to electrochemical analysis. Future perspectives and challenges have been eventually given.     

Molecularly imprinted polymers for highly sensitive detection of morphine using surface plasmon resonance spectroscopy

Molecular imprinting technology is applied in surface plasmon resonance spectroscopy for highly sensitive and selective detection of morphine（MO）.As SPR-based sensor of MO,the preparation of molecular imprinted polymer is as follows: methacryhc acids（MAA）,ethylene glycol dimethacrylate（EGDMA）,azodiisobutyronitrile（AIBN） were used as functional monomer,cross-linker and initiator,respectively.The experiment results showed that morphine imprinted polymer had the performance of high sensitivity and specificity,i.e.the relative signal of SPR response was proportional to the concentration of morphine in acetonitrile in the range of 10^-9mol/L to 10^-6mol/L（1 ppb-1 ppm） with LOD of 10^-10mol/L,and MO was distinguished from its analogs,such as codeine.     

新型量子点基分子印迹荧光传感器在快速检测中的应用

作为一种新型荧光纳米材料,量子点具有十分优异的光学特性,是分析化学、生物科学、医学等领域研究的热点标记材料。分子印迹聚合物是能够进行特异性识别和选择性吸附的“仿生”材料,它易于制备且具有较好的重现性和稳定性,因而分子印迹技术已成为具有广阔应用前景的识别技术。量子点基分子印迹荧光传感器结合了量子点和分子印迹技术的优势,由于其高选择性和高灵敏度,在环境监测、食品检测、生物分析等领域得到快速发展。但该传感器在应用中也还存在亲水性不足、识别单一、便携性不足等问题。该文引用了近5年来发表在American Chemical Society、Elsevier等数据库约20篇相关文献,对量子点基分子印迹荧光传感器的构建及该传感器在快速检测分析痕量物质中的应用进展进行了综述。首先根据荧光光谱图中发射峰个数的不同分别介绍了3种量子点基分子印迹荧光传感器的类型及相关识别机理,其次根据待测物的不同归纳介绍了近五年来该传感器在离子、有机小分子、生物大分子等检测分析中的最新研究进展,最后对当前该传感器在制备及应用中仍存在的问题进行了总结并对其发展趋势进行了展望。     

Surface plasmon resonance sensors for real-time detection of cyclic citrullinated peptide antibodies

Surface plasmon resonance (SPR) sensors have been used for detection of various biomolecules because of their simplicity, high specificity and sensitivity, real-time detection, low cost, and no requirement of labeling. Recently, molecularly imprinted polymers that are easy to prepare, less expensive, stable, have talent for molecular recognition and also are used for creation selective binding sites for target molecule on the SPR sensors. Here, we show that preparation of cyclic citrullinated peptide antibody (anti-CCP) imprinted SPR sensor to detect CCP antibodies. For this purpose, anti-CCP/AAm pre-complex was synthesized by interacting acrylamide (AAm) monomer with anti-CCP. Then, anti-CCP imprinted (anti-CCP/PAAm) SPR sensor was obtained by reacting with anti-CCP/AAm pre-complex in the presence of the crosslinker, and initiator/activator pair. Besides this, non-imprinted (PAAm) SPR sensor was also prepared without using anti-CCP template. The SPR sensors were characterized and then adsorption-desorption studies were performed with pH 7.0 phosphate buffer (10 mM) and acetic acid (10%) with Tween 20 (1%) in pH 7.0 phosphate buffer. Selectivitiy of sensors was investigated by using immunoglobulin M (IgM) and bovine serum albumin (BSA). To determine the adsorption model of interactions between anti-CCP solutions and anti-CCP/PAAm SPR sensor, different adsorption models were performed. The calculated maximum reflection, detection limit, association and dissociation constants were 1.079 RU/mL, 0.177 RU/mL, 0.589 RU/mL and 1.697 mL/RU, respectively. Repeatability experiments of anti-CCP/PAAm SPR sensor was performed four times with adsorption-desorption-regeneration cycles without any performance losing. Results showed that anti-CCP/PAAm SPR sensor had high selectivity and sensitivity for detection of CCP antibodies.     

光纤SPR传感器的结构、膜材与应用进展

光纤表面等离子共振(Fiber optic surface plasmon resonance,FO-SPR)传感器由于体积小、易携带、抗电磁干扰等优点在生物、化学、医学及食品领域均具有广阔的应用前景。该文综述了光纤SPR传感器的结构、膜材料及其应用进展。其中终端反射式和在线传输式是光纤SPR传感器最重要的两种结构;最常用的膜材料包括金膜、银膜、复合膜和金属纳米颗粒。基于光纤SPR的实时检测、抗干扰能力强、可多通道检测等特点展望了其未来发展与应用前景。     

基于磁性分子印迹聚合物的电化学传感器的研究进展

分子印迹聚合物与磁性纳米材料结合,制备成磁性分子印迹纳米敏感膜,这样做不仅可以发挥分子印迹聚合材料的优势,而且磁性纳米粒子可有效提高电化学传感器的灵敏度、稳定性以及生物相容性等。近年来将磁性分子印迹纳米敏感膜应用于电化学传感器制备成的磁性分子印迹电化学传感器得到了较快的发展。本文就近5年来磁性分子印迹电化学传感器敏感膜所用的磁性材料、敏感膜制备方法以及磁性分子印迹电化学传感器在环境、食品以及临床方面的应用进行了综述总结。