基于分子印迹技术的丙溴磷压电石英晶体微天平研制

介绍了一种用于检测丙溴磷农药的分子印迹压电生物传感器的构建方法。采用沉淀聚合法合成了农药丙溴磷的分子印迹聚合物,将其固定于石英晶体微天平电极表面构建传感器;采用环境扫描电镜以及原子力显微镜对聚合物形貌、传感器电极表面形貌特征进行分析,并利用传感器对丙溴磷农药进行检测分析,其质量浓度在10~1000 ng/mL范围内,传感器频率改变与丙溴磷浓度之间的响应呈线性关系,线性方程为y=0.139ρ+2.26(r=0.9984)。结果表明,构建的分子印迹压电生物传感器能够对农药进行初步检测,具有较高的灵敏性和较好的特异识别能力。     

分子印迹纳米膜的制备及其在检测神经性毒剂沙林中的应用

采用电化学聚合法首次合成了对有机磷毒剂沙林有快速响应和高灵敏度的分子印迹纳米膜。用压电晶体频移法测出其膜厚约为35nm，对影响电聚合反应的因素(如模板分子浓度、单体浓度、扫描电位和扫描次数)进行了筛选，进而在石英晶体微天平(QCM)上制成了纳米分子印迹传感器。这种新型传感器响应速度快(最初响应时间2s)，抗干扰能力强，检测范围宽(O．7～50μL/L)，灵敏度高(1nL/L)。     

基于Nafion膜修饰的血吸虫抗体压电免疫传感器研究

将Nafion膜包埋血吸虫抗原固定在石英晶体微天平表面上,构制了用于测定血清中血吸虫抗体的压电免疫传感器.这种生物敏感膜由涂敷在石英晶片表面上的一滴Nafion+血吸虫抗原磷酸盐缓冲液干燥而成,它的构制和再生过程具有良好的重现性.用扫描电镜观察了这种生物敏感膜的形貌,并对传感器的构制参数、测量条件进行了优化,优化的传感器对血吸虫抗体的检测范围为0.2～6.0 mg/L.本传感器具有仪器简单、操作方便、灵敏度高、重现性好等优点,可判断血吸虫感染情况.     

基于Nafion膜修饰的血吸虫抗体压电免疫传感器研究

将Nafion膜包埋血吸虫抗原固定在石英晶体微天平表面上，构制了用于测定血清中血吸虫抗体的压电免疫传感器。这种生物敏感膜由涂敷在石英晶片表面上的一滴Nafion＋血吸虫抗原磷酸盐缓冲液干燥而成，它的构制和再生过程具有良好的重现性。用扫描电镜观察了这种生物敏感膜的形貌，并对传感器的构制参数、测量条件进行了优化，优化的传感器埘血吸虫抗体的检测范围为0．2～6．0mg／L。本传感器具有仪器简单、操作方便、灵敏度高、重现性好等优点，可判断血吸虫感染情况。     

多壁碳纳米管-分子印迹传感器测定盐酸克伦特罗

结合碳纳米材料和分子印迹技术,建立了以K3[Fe(CN)6]为探针测定盐酸克伦特罗的方法。以邻苯二胺为功能单体,盐酸克伦特罗为模板,采用电化学聚合法在多壁碳纳米管修饰电极表面制备了分子印迹薄膜。用乙腈水溶液可快速去除模板,得到多壁碳纳米管-分子印迹传感器。用循环伏安法、交流阻抗法和石英晶体微天平技术对印迹膜进行了表征,膜厚为12.3 nm。K3[Fe(CN)6]的相对峰电流与盐酸克伦特罗的浓度在4.0×10-8～6.6×10-6 mol/L范围内呈线性关系,检测限为8.1×10-9 mol/L。选择性实验表明传感器对结构类似物具有较强的抗干扰能力。此传感器可用于猪肉中盐酸克伦特罗的测定,加标回收率为101.3%～107.9%。     

新型分子印迹荧光传感器的构建与应用

分子印迹聚合物因具有构效预定性、特异识别性和广泛实用性,将其作为传感器识别单元的研究已成为当前的研究热点.分子印迹荧光传感器结合了分子印迹的高选择性与荧光检测的高灵敏度,非常适合复杂样品中痕量目标物的分析测定,在分离检测等领域备受关注.根据荧光材料的不同,本文详细介绍了以量子点、有机荧光染料、化学发光反应物质以及其他材料为荧光信号单元的新型分子印迹荧光传感器的构建与应用,总结了不同荧光传感器的构建方法、检测机理,探讨了基于比率型荧光的分子印迹传感器的制备与发展,并对分子印迹荧光传感器的发展前景进行了展望.     

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。     

无标记型免疫传感器的原理及其应用

无标记型免疫传感器能够直接测定生物样品，测定过程中无需预先对被测物进行标记，适应直接、实时、原位、在线的痕量免疫分析，已经广泛应用于临床医学、环境、制药、食品等分析领域中。表面等离子共振(SPR)型免疫传感器、石英晶体微天平(QCM)型免疫传感器、电容型免疫传感器即是目前报道较多的3种无标记型免疫传感器。本文分别对这3种免疫传感器检测原理、传感器构建方式以及在生物分子检测中的应用进行了简要综述。     

水相分子印迹光子晶体水凝胶传感器检测尿液中的痕量吗啡

结合水相分子印迹和光子晶体技术构建了吗啡分子印迹光子晶体水凝胶传感器,并成功用于生物样品中痕量吗啡的筛查.以吗啡为印迹模板,甲基丙烯酸为单体,乙二醇二甲基丙烯酸甲酯为交联剂,填充至二氧化硅光子晶体模板孔隙中进行共价型分子印迹聚合,在1％ HF溶液中除去光子晶体模板,并洗脱印迹模板分子,即可得到具有目标分子传感功能的分子印迹光子晶体水凝胶传感器.此传感器在水相环境中对吗啡分子的识别能力良好,可以在不需要标记的情况下,将目标分子的识别转变为衍射峰的位移,该光学信号通过传感器颜色的变化表现出来,吗啡浓度由10 pg/mL增加到1μg/mL过程中,衍射峰最大偏移达到38 nm,并且抗干扰能力强,检出限为0.1 μg/L,响应时间为40 s,可以重复使用.此检测平台不需要对样品进行处理,便可准确、灵敏、快速地检测复杂样品中的目标分析物.     

用石英晶体微天平研究表面活性剂在银固态表面上的动态吸附

吸附是表面活性剂的一个重要特征.迄今用于原位监测表面活性剂在固体表面上吸附重量变化的方法尚不多见.近年来压电石英晶体作为一种高灵敏的质量传感器(石英晶体微天平)已被用于大气和溶液中多种微量成分的监测.用石英晶体微天平研究I~-、Br~-和表面活性剂在金电极上的吸附行为亦有报道.本文研究了十六烷基三甲基溴化铵(CTAB)、十二烷基磺酸钠(SDSO)、十二烷基硫酸钠(SDS)在银固态表面上的吸附平衡动力学特性及其吸附机制.     

易衍生化温敏高分子刷的制备及其温敏行为研究

温敏材料由于优异的性能和潜在的应用价值而具有良好的发展前景.利用超分子自组装单层(SAM)与表面引发聚合(SIP)技术将2-(2-甲氧乙氧基)甲基丙烯酸乙酯(MEO2MA)与聚乙二醇甲基丙烯酸酯(OEGMA526)的共聚物poly(MEO2MAco-OEGMA526)接枝于金表面,探索了不同引发剂溶液浓度(χIsol)、单体OEGMA526摩尔浓度(C526)与干态膜厚度(d)对该高分子刷性质的影响.应用石英晶体微天平(QCM)对其温敏行为进行研究,结果表明:在χIsol=1%与C526=5%条件下制备的高分子刷,最低临界溶解温度(LCST)为34℃;其LCST由OEGMA526的单体摩尔浓度决定,不受膜厚的影响.该高分子刷在接枝生物素后其与链霉亲和素的结合实验证明,高分子刷末端的羟基为其官能团化提供了契机.该易衍生化温敏高分子刷为发展新型温敏材料提供了研究基础.     

染料木素分子印迹聚合物的制备及其识别性能

以染料木素为模板分子、4-乙烯基吡啶(4-VP)为功能单体、乙二醇二甲基双丙烯酸酯(EGDMA)为交联剂、四氢呋喃(THF)为溶剂,采用本体聚合法制备了染料木素的分子印迹聚合物;采用静态平衡结合实验研究了该分子印迹聚合物对染料木素的结合能力和选择性能.结果表明,与化学组成相同的相应非印迹聚合物相比,染料木素分子印迹聚合物对染料木素的吸附性能和选择性更好.利用所合成的分子印迹聚合物作为固相萃取材料填充固相萃取小柱,可以选择性地从豆奶粉中分离、富集染料木素;此外,该分子印迹聚合物还有望用于其他豆制品的分析检验.     

分子印迹聚合物选择性富集长春碱的研究

分子印迹聚合物(MIPs)是近年来发展起来的一种对特定分子(模板分子)具有高度选择性的合成高分子材料.本文以长春碱(VLB)为模板分子,以甲基丙烯酸(MAA)为功能单体、乙二醇二甲基丙烯酸酯(EGDMA)为交联剂,在偶氮二异丁腈(AIBN)的引发下制备了长春碱印迹聚合物(VLB-MIP).采用紫外光谱对VLB与MAA之间形成的模板-功能单体复合物进行了分析,通过扫描电镜(SEM)对制备的VLB-MIP的表面形态进行了表征,并用BET法对MIP表面的孔径进行了测定.结果表明,VLB-MIP与未加模板分子制备的非印迹聚合物(NIP)相比表面多孔、粗糙,比表面积显著增加.以VLB-MIP作为固相萃取(SPE)的吸附剂,对VLB-MIP的选择性进行了评价,VLB-MIP能特异性地吸附VLB,而对VLB的结构类似物长春新碱(VCR)却没有表现出明显的吸附行为.将长春花提取物上样于填充VLB-MIP的SPE柱上,在最优实验条件下,长春花提取物中的VLB能被高效富集.此外,上样溶剂对MIP柱的吸附容量有影响,长春花提取物溶于非极性溶剂甲苯时,MIP的吸附容量最大为750μg/g,其次是氯仿吸附容量为625μg/g,最小的是甲醇为250μg/g.     

葡萄球菌肠毒素B分子印迹聚合物的制备及其与蛋白质的结合性能

以葡萄球菌肠毒素B(SEB)蛋白为模板分子,以聚苯乙烯微球为基质,采用表面分子印迹法制备了SEB分子印迹聚合物.利用平衡吸附试验分析了SEB聚合物对目标蛋白的吸附能力及对类似底物的选择性;分析了该聚合物的吸附动力学,并利用扫描电镜观察了其形貌特征和颗粒尺寸.结果表明,经Scatchard模型分析求得的标题聚合物的最大表观结合量Qmax为3.23mg/g;所制备的SEB分子印迹聚合物呈微球形,粒径约为1²μm,对SEB蛋白具有较好的吸附性和特异选择性.     

QCM sensing of a chemical nerve agent analog via electropolymerized molecularly imprinted polythiophene films

The highly selective and sensitive detection of a chemical nerve agent analog pinacolyl methylphosphonate (PMP) was demonstrated using an electrochemically molecularly imprinted polymer (MIP) polythiophene film onto a quartz crystal microbalance (QCM) transducer surface. The fabrication and optimization of the sensor film was monitored by in situ electrochemistry‐QCM (EC‐QCM) measurements, which determined the change in mass and simultaneous change in redox properties of the polymer film. The film deposition, template loading, and template removal were evidenced by a combination of surface characterization techniques such as the attenuated total reflection infrared spectroscopy and high‐resolution X‐ray photoelectron spectroscopy. The fabricated MIP film demonstrated a limit of detection and a limit of quantification of ～60 and ～197 μM, respectively. The linear sensing range is between 125 and 250 μM concentration of PMP. Finally, theoretical modeling (AM1 semiempirical quantum calculations) studies revealed that a stable prepolymerization complex is formed in solution with the existence of H‐bonding interactions using the 2:1 monomer‐to‐template ratio. © 2011 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem, 2012     

Surface molecular imprints of WGA lectin as artificial receptors for mass-sensitive binding studies

Wheat germ agglutinin (WGA) lectin is a model compound for the interaction between viruses and cells during infection events and thus an interesting analyte for mass-sensitive sensing to study these interaction phenomena. Scanning tunneling microscopy studies reveal that surface molecular imprinting leads to cavities having the dimensions of WGA dimers. These reincorporate WGA from phosphate-buffered saline between 1 and 160 μg/ml. Whereas the quartz crystal microbalance (QCM) frequency for molecularly imprinted polymer (MIP)-coated electrodes decreases, indicating uptake of the analyte, their nonimprinted counterparts yield positive, concentration-dependent frequency shifts characteristic for slip of the analyte on the QCM surface. The MIPs achieve selectivity factors towards bovine serum albumin of roughly 4 at higher protein concentrations. Brunauer-Emmett-Teller analysis reveals that binding is favored by 29 kJ/mol until the adsorption of up to ten monolayers on the MIP, whereas above this range the value is lower. Together with the binding behavior of MIP and nonimprinted polymers, this indicates that the MIP acts as a nucleus for multilayer deposition onto the surface.     

Development of a rubber elongation factor, surface-imprinted polymer-quartz crystal microbalance sensor, for quantitative determination of Hev b1 rubber latex allergens present in natural rubber latex products

Molecularly imprinted polymers (MIPs) for screening to detect rubber latex allergens (Hev b1) in natural rubber based products were designed as artificial recognition polymeric materials coated onto a quartz crystal microbalance (QCM). The polymers were prepared using a stamp imprinting procedure after mixing optimum amounts of methacrylic acid–vinylpyrrolidone–dihydroxyethylene bisacrylamide and Hev b1 latex allergen proteins, obtained from rubber gloves. QCM measurements showed that the resulting polymer layers after removal of the proteins used in their preparation could incorporate structures and features down to nanometer scale of protein templates into the imprinted polymer much better than a non-specific control polymer under controlled sensor conditions and an optimized polymerization process. This selective polymer but not the non-selective polymer clearly distinguished between the latex allergen Hev b1 and proteins such as lysozyme, ovalbumin and bovine serum albumin, with a selectivity factor of from 2 to 4, and the response of the rubber elongation factors by an astonishing factor of 12. The imprinted cavities recognized specific binding sites and could distinguish among related hevein latex allergenic proteins isolated from fresh natural rubber latex; Hev b1, Hev b2, and Hev b3 with a selectivity factor of from 4 to 6. The different QCM measurements obtained presumably reflected slightly different conformations and affinities to the MIP binding sites. The sensor layers selectively adsorbed Hev b1 within minutes in amounts ranging from 10 to 1500 μg L⁻¹ and with a detection limit of 1 μg L⁻¹. This work has demonstrated that this new sensor provides a fast and reliable response to natural rubber latex protein, even after being extracted from the matrix of rubber gloves.     

A Novel Molecular Imprint Polymer Quartz Crystal Microbalance Nanosensor for the Detection of Andrographolide in the Medicinal Plant Extract

Russian Journal of Electrochemistry - A novel quartz crystal microbalance (QCM) sensor based on molecular imprint polymer (MIP) has been developed for the detection of andrographolide in the...     

石英晶体微天平的新进展

石英晶体微天平（quartz crystal microbalance,QCM）是一种对界面变化敏感的仪器,它已经在物理、化学、生物学、药物学、临床医学、环境科学等学科的界面问题研究中得到了一定的应用.然而,QCM在液相下的应用和推广一直受限于QCM数据定量解释的困难.为此,科研工作者发展了多种高级的QCM,比如带阻抗分析功能的QCM（impedance QCM,i-QCM）或带能量耗散监测功能的QCM（QCM with dissipation,QCM-D）,同时还发展了许多相应的理论模型.但是,对于多数生物、化学工作者来说,这些理论过于复杂.这极大地限制了QCM的推广和潜力发挥.本文以我们小组在QCM方面的研究工作为线索,对已报道的分析方法、模型和方程按5类应用条件进行了整理,给出了明确的界定标准：它们是：1,固-气界面;2,牛顿流体;3,固-液界面的薄膜;4,固-液界面厚膜;5,固-液界面超厚膜.对于每一类情况,我们将用通俗易懂的语言描述如何对QCM数据进行简化却又保证研究精度需要的定量分析.对于液态环境下的QCM数据的分析,我们着重介绍了＂固化水层＂模型,该模型允许QCM在一定的条件下成为一把＂分子尺＂,工作范围从几个纳米到数百纳米.该分子尺在多个创新界面问题研究中得到很好的应用.最后,我们从理论上分析了QCM作为生物传感器的先天缺陷--因基于面均质量检测的原理,QCM技术对溶液中蛋白的检测下限仅在1μg mL-1数量级.进一步,我们探索了QCM的发展方向和潜在应用领域,希望籍此能进一步推广QCM在各个学科界面问题中的研究应用.     

The use of trichloroacetic acid imprinted polymer coated quartz crystal microbalance as a screening method for determination of haloacetic acids in drinking water

An alternative screening method for haloacetic acids (HAAs) disinfection by-products in drinking water is described. The method is based on the use of piezoelectric quartz crystal microbalance (QCM) transducing system, where the electrode is coated with a trichloacetic acid-molecularly imprinted polymer (TCAA-MIP). This MIP comprises a crosslinked poly(ethyleneglycoldimethacrylate-co-4-vinylpyridine). The coated QCM is able to specifically detect the analytes in water samples in terms of the mass change in relation to acid-base interactions of the analytes with the MIP. The TCAA-MIP coated QCM showed high specificity for the determination of TCAA in aqueous solutions containing inorganic anions, but its sensitivity reduced in water samples containing hydrochloric acid due to a mass loss at the sensor surface. Cross-reactivity studies with HAA analogs (dichloro-, monochloro-, tribromo-, dibromo-, and monobromo-acetic acids) and non-structurally related TCAA molecules (acetic acid and malonic acid) indicated that recognition of the structurally related TCAA compounds by the TCAA-MIP-based QCM is due to a carboxylic acid functional group, and probably involves a combination of both size and shape selectivity. The total response time of sensor is in the order of 10 min. The achieved limits of detection for HAAs (20-50 μg l⁻¹) are at present higher than the actual concentrations found in real-life samples, but below the guidelines for the maximum permissible levels (60 μg l⁻¹ for mixed HAAs). Recovery studies with drinking water samples spiked with TCAA or spiked with mixtures of HAAs revealed the reproducibility and precision of the method. The present work has demonstrated that the proposed assay can be a fast, reliable and inexpensive screening method for HAA contaminants in water samples, but further refinement is required to improve the limits of detection.