一种新的转铁蛋白压电负免传感器的研究

报道了一种基于等离子体聚合膜、结合聚电解设计的转铁蛋白压电免疫传感器，采用辉光放电等离子体聚合技术，在石英晶体上沉积一层正丁胺聚合膜，再在膜上自组装一层易再生的，带负电压的聚电解抽，调节抗体溶液的P 带正电，经静电吸附包被抗体后用以测定抗原，探讨了自组装聚电解质的浓度和自组装时间，抗体的包被浓度，包被时间和PH值以及免疫反应的酸度，温度及响应频率与时间的关系等实验条件的影响，考察了传感器的灵敏度、选择性、重现性和再生性能，用传感器测定人血清中转铁蛋白的线性范围为0．10－12．65μg/mL。将其用于实际样品中转铁蛋白的测定，结果与酶联免疫法基本一致。     

基于等离子体聚合膜的日本血吸虫压电免疫传感器的研究

提出了一种测定日本血吸虫抗体的可逆压电免疫传感器。先在石英晶振上沉积正丁胺等离子体聚合膜,再自组装聚电解质,用以静电吸附固定日本血吸虫抗原。然后采用BSA和NRS作封闭剂,以封闭晶振上非特异必吸附位点,实现对日本血吸虫感染兔血清的测定。探讨了聚电解质(PSS和AASS)自组装、抗原包被和免疫反应等实难条件的影响;考察了该传感器的响应特性与再生性能,并与采用戊二醛共价键合固定法进行比较。发现该传感器具有灵敏度高、重现性好、非物异性吸附低、再生简便等优点。将它用于测定一系列不同感染程度的兔血清样本,结果表明,该传感系统是临床定性和定量诊断日本血吸虫病的一种有效工具。     

基于等离子体聚合膜固定酶的H2O2生物传感器

以玻碳电极为基础电极,用微波等离子体技术聚合沉积聚乙二胺等离子体膜,使之形成带氨基功能团的表面,再通过戊二醛交联共价固定辣根过氧化物酶,制得H2O2生物传感器.探讨了等离子体聚合膜的形成条件(如放电功率、单体流速、单体气压和聚合时间),讨论了工作电位、介体浓度和pH值对传感器响应的影响.此外,用红外光谱对等离子体聚合膜进行了表征.该传感器在5×10-7～1.1×10-3mol/LH2O2浓度范围内有线性响应,最低检测限为0.3μmol/L.将此传感器用于实际试样回收率的测定,结果良好.     

纳米金自组装膜的IgM压电免疫传感器的研究

利用等离子体聚合膜沉积技术和纳米金亚单层自组装技术设计传感器界面，用 于固定羊抗人M抗体，研制了一种新的M压电免疫传感器．先在石英品振上沉积正丁 胺等离子体聚合膜，通过戊二醛交联结合一半肮胺单层膜，利用膜上流基与纳米金 键合组装纳米金亚单层，得到可用于固定18kI抗体的界面，再以牛血清白蛋白 (BSA)和聚乙二醇(PEG)封闭晶振上的非特异性吸附位点．实验探讨了影响纳米金自 组装和抗体包被等主要实验参数和条件；考察了采用此固定化方法传感器的响应性 能，与戊二醛共价交联固定法和金电极表面直接吸附固定法进行了比较．结果表明 ，以纳米金单层作界面固定抗体时，具有传感界面不需活化、固定抗体的活性高、 检测时的非特异性吸附小、传感器能反复再生等优点．将传感器用于实际样品的检 测，结果令人满意．     

基于巯基和聚电解质双层自组装膜的压电免疫传感器检测小鼠IgG气溶胶

本文结合自组装单分子层膜(SAMs)和聚电解质静电吸附组装技术,提出了一种新的用于气相压电免疫检测的生物分子固定化方法,研制了一种用于检测小鼠IgG抗体的压电免疫传感器。首先在石英晶片的金电极表面自组装了一层L-胱氨酸SAMs,再在膜上组装带相反电荷的海藻酸钠,最后通过调节pH值定向固定羊抗鼠纯化抗体,优化了固定条件。通过超声雾化法产生的小鼠IgG气溶胶,研制成了直接气相检测小鼠IgG的压电免疫系统。结果表明,该方法对所固定的生物分子活性影响较小,传感器对小鼠IgG的响应快,灵敏度高,在0.14~6μg.μL-1范围内具有良好的线性关系,精密度好,再生方便。     

基于邻苯二胺电聚合膜的抗体固定化方法研究

Si等 [1] 在压电石英晶体金电极表面先电聚合了一层聚苯胺膜 (PAn) ,再于 PAn膜上电聚合一层聚间苯二胺膜 (Pm PD) ,形成一双层膜 (Pm PD和 PAn) ,而后通过戊二醛共价键合固定化方法 ,实现对生物蛋白质分子的固定和对生物细胞的测定 .但在上述方法中 ,传感器难以再生且蛋白质分子的固定量较少 .参照文献 [2 ],本文提出了一种在电聚合邻苯二胺薄膜上进行可逆的抗体固定化的新方法 .通过控制溶液的 p H值 ,在带正电的电聚合邻苯二胺膜表面先自组装一层聚阴离子聚苯磺酸根 (PSS)层 ,使传感器得到一个带负电的载体表面 ,再通过静电吸附 ,…     

基于胱氨自组装膜的压电免疫传感器检测抗凝血酶Ⅲ

提出了一种基于胱氨自组装膜和采用聚电解质吸附法固定活性物质的压电免疫传感器，用于检测人血浆中抗凝血酶Ⅲ（AT－Ⅲ）。先在压电石英晶振的金电极表面自组装一层带疏基的胱氨单分子膜，再在膜上组装一层聚电解质褐藻酸钠（AAS），通过静电吸附作用，将AT－Ⅲ抗体固定于石英晶体表面，在含有3.5%聚乙二醇（PEG）的缓冲溶液中检测AT－Ⅲ。比较了传感器分别采用AAS吸附法和戊二醛键合法固定AT－Ⅲ抗体的响应性能，发现前者固定的抗体的活性较高，反应响应的频移值较大，检测的线性范围也较宽。实验采用PEG作免疫反应的促进剂，进一步改善了传感器的检测灵敏度和检测限。采用Piranha试剂作洗脱液可实现传感器的反复再生。干扰与回收率实验结果表明，该传感系统可用于人血浆中AT－Ⅲ的临床检测。     

一种偶氮聚电解质在不同pH值条件下的静电逐层自组装研究

研究了一种光响应偶氮聚电解质(PEAPE)在不同pH值条件下的自组装,重点讨论了pH值对静电逐层自组装以及对光响应性能的影响.研究表明,在所研究的pH范围内,pH值越低,越有利于生成吸光度高的自组装膜,对应的自组装膜厚度也越大.红外光谱分析表明,偶氮聚电解质在不同pH溶液中存在不同的电离情况.pH值越低,用于自组装的溶液中的聚合物链上的电荷数越少,链构象越卷曲.解释了不同pH值条件下自组装膜吸光度和厚度差别的原因.     

层层自组装聚电解质膜光纤传感器的制备和应用

在过去几十年中,光纤的应用已经渗透到多个学科领域。光纤的抗电磁干扰、可远程监控、多重监测、体积小及质量轻等特点,使其在传感器研究领域备受关注。聚电解质层层自组装膜构建的光纤传感器自2000年诞生以来,已快速发展成为传感器领域新的研究热点。该类光纤传感器在微量物质的监测方面具有广泛的应用前景。本文从光纤和光纤传感器优点出发,总结了基于层层自组装多层膜的光纤传感器种类、性能、检测原理以及相应的光纤结构和自组装材料;进而结合作者已做的相关工作,论述了在光纤基底上的聚电解质层层自组装及基于自组装膜的光纤传感器的测试;重点综述了近十年层层自组装膜的光纤pH传感器、湿度传感器、气体传感器、生物传感器及其他类型的光纤传感器的制备与应用,并展望了今后聚电解质层层自组装多层膜光纤传感器的发展。     

一种新的压电免疫传感器中生物分子固定化方法的研究

生物分子固定化或传感界面设计技术是研制压电免疫传感器的关键之一。本文 结合自组装单分子膜（SAMs）和聚电解质静电吸附组装技术，提出了一种新的压电 免疫传感器中生物分子固定化方法，研制成一种检测补体C_3的压电免疫传感器。 先在石英晶振的金电极表面组装一层胱胺SAMs，再在膜上组装带相反电荷的聚苯磺 酸钠（PSS）单层膜，通过静电吸附作用固定抗体（抗原），实现对相应抗原（抗 体）的检测。利用扫描电镜技术，从形态上考察了晶振组装胱氨SAMs与PSS及固定 补体C_3抗体后的表面形貌。研究了抗体的固定化条件，探讨了传感器采用这种固 定化方法的响应与再生性能，并与戊二醛键合固定法进行比较。结果表明，这种固 定化方法不仅对蛋白质类生物分子的固定化具有普适性，而且对所固定的生物分子 的活性影响小，传感器的响应的频移值大，灵敏度高，选择性和再生性能均较好。     

一种新的基于正丁胺等离子体聚合膜的免疫传感器抗体(抗原)固定化方法

等离子体聚合膜 ( Plasma- polymerized film)是由有机蒸气在辉光放电下聚合而成 ,这种高度交联的膜具有均匀、超薄、附着力强、化学稳定、机械性能良好、基质类型多样以及成膜有机物品种多样等优点 ,因此已引起了传感器工作者的兴趣 ,目前 ,所研制的传感器已用于有机气体的测定 [1 ,2 ] .Karube小组报道了乙烯二胺等离子体聚合膜在免疫传感器方面的应用[3,4] .但由于抗体直接共价键合于等离子体聚合膜上 ,无法洗脱 ,使等离子体聚合膜修饰的传感器不能再生 ,而不同批次沉积的等离子体聚合膜其交联度、活性基团含量等又难以一致 ,严重影响了…     

Quartz-crystal microbalance immunosensor for Schistsoma-japonicum-infected rabbit serum.

A quartz-crystal microbalance immunosensor (QCM) has been developed for the direct determination of Schistosoma-japonicum-infected rabbit serum. A self-assembled monolayer with carboxyl groups was first coated on a gold electrode of a quartz-crystal resonator by the spontaneous adsorption of 3-mercaptopropionic acid. Schistosoma-japonicum molecular antigen of 32 kD molecular weight was then covalently attached to the crystal surface. The QCM immunosensor was used to detect infected rabbit serum (IRS49-2000); a maximum titer of 1:800 was achieved.     

A reusable piezo-immunosensor with amplified sensitivity for ceruloplasmin based on plasma-polymerized film

A reusable piezoelectric immunosensor with amplified sensitivity has been developed for the detection of ceruloplasmin (CP) in human serum. The quartz crystal microbalance (QCM) was deposited with plasma-polymerized n-butyl amine film with the surface topology further characterized by using atomic force microscopy (AFM). Anti-ceruloplasmin antibody (CP-Ab) was electrostatically adsorbed on the PPF-modified crystal via an oppositely charged polyelectrolyte layer of alginate. It was found that the alginate-mediated immobilization interface could allow for antibodies to be largely immobilized with well-retained immunoactivity. In particular, a simple regeneration process for the sensor produced, i.e. by shifting the pH, can also be realized. Moreover, an optimized assay medium containing polyethylene glycol (PEG) was tested with enhanced immunosensing response (sensitivity). A dynamic concentration range of two orders of magnitude and a detection limit of 0.15 μg ml⁻¹ of CP were observed. Analytical results of clinical samples show that the developed immunoassay is comparable with the enzyme-linked immunosorbent assay (ELISA) method. However, it presents some superior advantages over the traditional sandwich format in that the analyzing performances are direct, rapid and simple without multiple separation and labeling steps.     

An impedimetric immunosensor for the detection of autoantibodies directed against gliadins

An immunosensor has been developed for the detection of autoantibodies directed against wheat gliadin, a protein fraction of cereal gluten which is involved in celiac disease. The immunosensor is based on the immobilization of gliadins onto gold electrodes covered with a polyelectrolyte layer of poly(4-styrenesulfonic acid sodium salt). The immobilization was monitored by quartz crystal microbalance (QCM) analysis. The antigen-antibody interaction signal was amplified by an incubation step with peroxidase-labeled immunoglobulins and subsequent peroxidase-catalyzed oxidation of 3-amino-9-ethylcarbazole (AEC). Changes in the insulating properties of the electrode layer were measured by electrochemical impedance spectroscopy (EIS) in the presence of ferri/ferro-cyanide. Impedance spectra could be fitted to a Randles equivalent circuit with high accuracy. Exposing the sensor electrodes to various antigliadin antibody concentrations resulted in proportional changes in the charge transfer resistance. A calibration graph for the detection of antigliadin antibodies was established for antibody concentrations between 10(-8) and 10(-6) M. Finally, the sensor was used for the determination of antigliadin autoantibodies of the IgG and IgA type in several human sera.     

A novel biosensing interfacial design based on the assembled multilayers of the oppositely charged polyelectrolytes

A novel biosensing interfacial design strategy has been produced by the alternate adsorption of the oppositely charged polyelectrolytes. A quartz-crystal microbalance (QCM) as a model transducer was modified by use of mercaptoacetic acid (MAA) self-assembled monolayer (SAM) and the adsorption multilayers of the oppositely charged polyelectrolytes. MAA-SAM was first applied to the gold electrode surface of the crystal, and the positively charged chitosan was used as a double-sided linker to attach the negatively charged alginate-HSA antibodies to the negatively charged MAA-SAM layer. The assembly process and conditions were studied using the real-time output device and the surface topologies of the resulting crystals were characterized by atomic force microscopy (AFM) imaging. It is discovered that the optimal pH of immobilizing antibodies was 7.2 and the suited dilution ratio of antibodies was 10:30. The proposed immunosensor in optimal conditions has a linear detection range of 12.3-184.5 μg/mL for HSA detection. Comparing with the direct immobilization method of antibodies, the immunosensor with the proposed immobilization procedure shows some advantages, such as improved sensitivity due to the well-retained antibody activity and the significantly extended detection range. In particular, the regeneration of the developed immunosensor was simple and fast. Analytical results indicate that the developed immobilization procedure is a promising alternative for the immobilization of biorecognition element on the electrode surface.     

Development of an immunosensor for human ferritin, a nonspecific tumor marker, based on a quartz crystal microbalance

A new human ferritin immunosensor was developed using anti-human ferritin antibodies (Abs) immobilized on the gold disc of a quartz crystal microbalance (QCM). Two kinds of self-assembled monolayers (SAMs) prepared by cystamine-glutaraldehyde and cystamine method were applied to immobilize anti-ferritin monoclonal antibodies (MoAbs) and polyclonal antibodies (PoAbs) on the quartz, respectively. The reusabilities of quartz crystal adopting the SAMs were found to be better than those of the other immobilization methods used. The 10 cycles of measurements could be performed on the gold surface of the same crystal regenerated with a solution of glycine·HC1. This sensor system could be continuously performed for 15 days, the relative frequency shifts (the frequency shifts measured are relative to the response at the first day) were all found to be above 95%. A linear relationship existed between the frequency shifts (Hz) and the log values of human ferritin concentrations in the range from 0.1 to 100 ng/ml in buffer and mouse serum. This human ferritin immunosensor had some advantages: high sensitivity, high specificity, low sample requirement, high reusability, no label and no pretreatment etc.     

基于网状混合自组装膜的压电免疫传感器及其应用

结合纳米金及混合自组装技术, 制备了一种新型网状混合膜, 提出了一种新的生物分子固定化方法, 研制了一种用于检测人血清抗精子抗体的压电免疫传感器. 首先, 将纳米金溶胶、巯基丙酸和1,6-二巯基己烷按一定的比例混合制得网状混合自组装膜, 然后将此膜组装到压电石英晶振的金电极表面, 经EDC/NHS活化后, 再将抗原固定到电极上, 实现对抗精子抗体的检测. 结果表明, 该方法能明显提高抗体抗原结合效率, 从而提高传感器的灵敏度, 并降低传感界面的非特异性吸附. 将此传感器应用于人血清抗精子抗体的检测, 线性范围为10~800 mU/mL, 检出限为7 mU/mL. 此传感器为抗精子抗体的临床检测提供了新平台.