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传染性病原体POCT对于及时有效控制传染病尤为关键。相比于传统检测方法,基于电化学免疫传感器的传染性病原体检测具有快速、灵敏、准确、易于小型化和集成化等优势,尤其适用于传染病POCT。新兴的纳米材料因其独特的理化性质可用于修饰传感器界面或作为生物分子的固载基质以及信号标记物等,有助于构建出高选择性和高灵敏度的电化学免疫传感器。在本文中,我们着重阐述了不同结构的纳米材料修饰的电化学免疫传感器在传染性病原体POCT检测中的应用,进一步介绍了基于纳米材料的电化学免疫传感器与不同检测技术联用在传染性病原体POCT中的应用,并对其发展前景做出了展望。 相似文献
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蛋白质的磷酸化作用是一种可逆的翻译后修饰方式,几乎参与生物体内所有关键生命活动,在核内基因的特定表达、细胞的分裂分化以及各种生命活动的转导中发挥重要意义。基于磷酸化前后电化学信号的改变,利用电化学传感器的方法能快速简便地检测蛋白质的磷酸化作用,且具有较高的选择性和灵敏度。本文回顾了几种常用的电化学检测磷酸化作用的方法,基于电极材料的不同进行了分类与总结,汇总了每种方法中用到的修饰电极的纳米材料及生物分子,最后总结了电化学方法检测蛋白质磷酸化的优缺点,并对有效检测磷酸化作用进行了前景展望。 相似文献
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以Ho2O3为反应物,采用水热法制备了纳米磷酸钬(n-HoPO4),并利用场发射扫描电子显微镜(SEM)、能谱分析(EDS)对其进行形貌表征和元素组成分析.将n-HoPO4和血红蛋白(Hb)复合材料修饰于裸玻碳电极(GCE)表面构建生物传感器,实现了对H2O2的电化学检测.采用循环伏安(CV)和电化学交流阻抗(EIS)技术对修饰电极进行表征,结果表明,Hb/n-HoPO4/GCE对H2O2的还原具有良好的电化学催化效果;n-HoPO4具有良好的导电性和生物相容性,促进了Hb与工作电极间的直接电子转移.研究了不同pH值和电化学扫速对修饰电极响应电流的影响.在优化实验条件下,此生物传感器对H2O2在50 ~ 1000 μmol/L范围内表现出良好的线性关系,相关线性系数R=0.999,检出限为17 μmol/L(S/N=3).此生物传感器具有检测范围宽、稳定性和重现性好、抗干扰能力强等优点,可用于实际样品的检测. 相似文献
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共价有机框架材料(Covalent Organic Frameworks, COFs)是一种具有纳米级结构有序性的二维或三维有机结晶材料, 具有高度周期性和可修饰性等结构优点. 基于COFs制备的电化学生物传感器具有灵敏度高、特异性强、重复性好等特点, 在检测生物样品方面具有广阔前景. 本综述简要概述了COFs的合成方法与策略、电化学生物传感器的介绍与分类以及COFs在电化学生物传感检测生物样品领域的应用. 最后本综述对COFs材料在生物传感领域的技术瓶颈与未来的发展方向进行了总结与讨论. 相似文献
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《分析试验室》2016,(6)
介绍了近年来重金属离子检测的研究现状,综述了电化学生物传感器在重金属离子检测中的应用及其在检测灵敏度、选择性、响应速度、易于操作与实时在线检测方面的优点,阐述了基于生物敏感界面构建的电化学生物传感器在重金属离子检测中的重要作用。分类讨论了国内外一些典型的特异性识别重金属的生物受体,如核酸类,蛋白质类有氨基酸、酶、抗原抗体,细胞微生物等用于构建敏感界面而开发的生物传感器在重金属离子检测领域的进展与成果,以及在构建敏感界面的过程中各种新型纳米材料如金属纳米粒子、碳纳米材料、纳米复合材料等的应用对传感器检测效果的影响。最后结合生物传感器的现状及相关学科的发展,展望了电化学生物传感器在重金属离子检测领域的发展方向。 相似文献
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Qun Wang Qiang Xue Tao Chen Jiawei Li Yuehua Liu Xiaohan Shan Fei Liu Jianbo Jia 《中国化学快报》2021,32(2):609-619
The abuse of antibiotics will cause an increase of drug-resistant strains and environmental pollution,which in turn will affect human health.Therefore,it is important to develop effective detection techniques to determine the level of antibiotics contamination in various fields.Compared with traditional detection methods,electrochemical sensors have received extensive attention due to their advantages such as high sensitivity,low detection limit,and good selectivity.In this mini review,we summarized the latest developments and new trends in electrochemical sensors for antibiotics.Here,modification methods and materials of electrode are discussed.We also pay more attention to the practical applications of antibiotics electrochemical sensors in different fields.In addition,the existing problems and the future challenges ahead have been proposed.We hope that this review can provide new ideas for the development of electrochemical sensors for antibiotics in the future. 相似文献
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Antibody- or DNA-based electrochemical systems have been developed widely for several decades, while carbohydrate-based electrochemical systems have been rarely reported. Herein, we used an electrochemical detection system to understand the molecular relationships in carbohydrate-protein interactions that can provide useful information about biological processes in living organisms. This system was also helpful for the development of potent biomedical agents. Electrochemical detection was achieved through the observation of electrochemical response changes of ferrocyanide solution that resulted from the interaction of carbohydrate and protein using a modified GM1 pentasaccharide containing an anchoring thiol group that was directly immobilized on a gold electrode. As the concentration of the GM1 pentasaccharide increased, the current decreased gradually and saturated after 2 nM. We also found that the drop in current depended on the size of the carbohydrate (larger size of the carbohydrate denoted a higher slope of the current reduction), indicating that the current could be modulated by the molecular size of the carbohydrate as well as its concentration. This system was able to detect very low concentrations of carbohydrate (down to 20 fM), which highlighted the advantage of the electrochemical system. Interestingly, we found that a potential shift at the maximum current occurred upon interaction with cholera toxin proteins. By comparing results for different sizes of GM1 analogues, we surmise that the potential shift is closely associated with the specificity for the carbohydrate-protein interaction. Collectively, a carbohydrate-based electrochemical system can be leveraged for the facile and rapid analysis of carbohydrate-protein interactions. 相似文献
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Applications of ionic liquids in electrochemical sensors 总被引:2,自引:0,他引:2
Ionic liquids (ILs) are molten salts with the melting point close to or below room temperature. They are composed of two asymmetrical ions of opposite charges that only loosely fit together (usually bulky organic cations and smaller anions). The good solvating properties, high conductivity, non-volatility, low toxicity, large electrochemical window (i.e. the electrochemical potential range over which the electrolyte is neither reduced nor oxidized on electrodes) and good electrochemical stability, make ILs suitable for many applications. Recently, novel ion selective sensors, gas sensors and biosensors based on ILs have been developed. IL gels were found to have good biocompatibility with enzymes, proteins and even living cells. Besides a brief discussion of the properties of ILs and their general applications based on these properties, this review focuses on the application of ILs in electroanalytical sensors. 相似文献
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《Electrochemistry communications》2005,7(5):537-540
We demonstrate for the first time the utility of nucleic acid aptamers for electrochemical detection of proteins. Highly specific and sensitive label-free detection of the target protein is achieved by combining aptamer-coated magnetic beads and chronopotentiometric stripping measurements of the captured protein (in connection to the intrinsic electroactivity of the protein). Lysozyme has thus been detected selectively in a mixture containing a large excess of six proteins and amino acids (both electroactive and non-electroactive), with a detection limit of 350 fmol (7 nM). While aptamer-based electronic sensors are in their infancy, such devices offer attractive opportunities for electrochemical detection of proteins and for developing proteomic chips. 相似文献
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Magnetic beads (MBs) are versatile tools in the separation of nucleic acids, proteins and other biomacromolecules, their complexes and cells. In this article recent application of MBs in electrochemical biosensing and particularly in the development of DNA hybridization sensors is reviewed. In these sensors MBs serve not only for separation but also as a platform for optimized DNA hybridization. A hybridization event is detected separately at another surface, which is an electrode. The detection is based either on the intrinsic DNA electroactivity or on various kinds of DNA labeling, including chemical modification, enzyme tags, nanoparticles, electroactive beads, etc., greatly amplifying the signals measured. In addition to DNA hybridization, other kinds of biosensing in combination with MBs, such as DNA-protein interactions, are reviewed. 相似文献
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Jing Yan Yu Qin Wen-Ting Fan Wen-Tao Wu Song-Wei Lv Li-Ping Yan Yan-Ling Liu Wei-Hua Huang 《Chemical science》2021,12(43):14432
Recently, stretchable electrochemical sensors have stood out as a powerful tool for the detection of soft cells and tissues, since they could perfectly comply with the deformation of living organisms and synchronously monitor mechanically evoked biomolecule release. However, existing strategies for the fabrication of stretchable electrochemical sensors still face with huge challenges due to scarce electrode materials, demanding processing techniques and great complexity in further functionalization. Herein, we report a novel and facile strategy for one-step preparation of stretchable electrochemical biosensors by doping ionic liquid and catalyst into a conductive polymer (poly(3,4-ethylenedioxythiophene):poly(styrene sulfonate), PEDOT:PSS). Bis(trifluoromethane) sulfonimide lithium salt as a small-molecule plasticizer can significantly improve the stretchability and conductivity of the PEDOT:PSS film, and cobalt phthalocyanine as an electrocatalyst endows the film with excellent electrochemical sensing performance. Moreover, the functionalized PEDOT:PSS retained good cell biocompatibility with two extra dopants. These satisfactory properties allowed the real-time monitoring of stretch-induced transient hydrogen peroxide release from cells. This work presents a versatile strategy to fabricate conductive polymer-based stretchable electrodes with easy processing and excellent performance, which benefits the in-depth exploration of sophisticated life activities by electrochemical sensing.A facile strategy for constructing stretchable sensors with excellent mechanical, electrochemical and biocompatible performance is developed, and in situ inducing and monitoring of stretch-evoked H2O2 release from cells has been successfully achieved. 相似文献
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Guilherme G. Bessegato Michelle F. Brugnera Maria Valnice Boldrin Zanoni 《Current Opinion in Electrochemistry》2019
Color is an important element of the final product of many industries, including the textile, leather, food, cosmetic, pharmaceutical, plastic, and fuel-marking industries. Dyes are complex organic substances with chromophore and auxochromic groups, which can be electrochemically oxidized and/or reduced; this constitutes the basis of their electroanalytical determination. Despite some controversies, dyes pose risks to living organisms, especially after biotransformation, as the metabolites can be more toxic, mutagenic, or carcinogenic than the original dyes. The present work provides a brief overview of the recent progress in electrochemical sensors used for dye detection in diversified matrices. Sensors developed over the recent years are characterized by high sensitivity and selectivity, besides being economically advantageous once they allow the use of little or no clean-up samples in portable and miniaturized systems. 相似文献