共查询到18条相似文献,搜索用时 62 毫秒
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将石墨烯与其他纳米材料复合,是一种拓展或增强其应用的有效方法。借助不同组分间的协同作用,可以改善石墨烯的电学、化学和电化学性质,拓展和增强石墨烯的电化学效应,为固定氧化还原酶,实现直接电化学提供新型、高效的平台,应用于第三代电化学生物传感器的设计和制备,对葡萄糖、胆固醇、血红蛋白、DNA、H2O2、O2、小生物分子等的检测显示出了优异的灵敏度和选择性。本文综述了基于石墨烯构筑的纳米复合材料在电化学生物传感器中的应用研究,包括石墨烯与贵金属、金属氧化物/半导体纳米粒子、高分子、染料分子、离子液体、生物分子等的纳米复合材料,并对石墨烯材料在电化学领域的发展方向和应用前景进行了展望。 相似文献
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对聚合物材料在生物电化学传顺中的应用进行了评述,包括高分子媒介体化合物、高分子阻挡膜、酶固定化材料和电解聚合物材料。并指出今后提高生物电化学传感器性能、改善和改变其表面特性,也依赖于聚合物材料的应用。 相似文献
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对1995~2011年间各种纳米材料,包括金属纳米粒子、量子点纳米材料、碳纳米材料、复合纳米材料等在电化学生物传感器中的应用及纳米仿生界面的构建进行了综述。 相似文献
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纳米尺度上的生物分析化学是当今国际生物分析领域研究的前沿和热点.该文阐述了纳米粒子在电化学免疫传感器及电化学DNA传感器领域的应用,着重介绍了以纳米材料为载体设计新型的具有生物分子识别和电信号增强作用的纳米标记粒子在构建高灵敏电化学生物传感器以及多组分同时检测中的应用. 相似文献
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回顾了近年来有序介孔材料在电化学生物传感器中的应用及发展状况,简述了规则介孔材料的合成方法及特点、生物分子在介孔材料上的固定方法及其优缺点,通过总结近年几种介孔材料电化学生物传感器的研究进展,提出介孔材料在电化学生物传感器领域的应用前景(引用文献49篇)。 相似文献
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作为电化学生物传感器中最重要的研究内容之一,葡萄糖生物传感器在数十年的发展中取得了巨大进展。本文综述了近年来利用纳米技术设计的新型电化学葡萄糖传感器的主要研究进展,并从纳米材料维度分类进行了讨论。其中,零维纳米材料主要讨论了包括金纳米颗粒、银纳米颗粒以及铜、铂等金属纳米颗粒材料; 一维纳米材料主要讨论了通过模板法制备的金属或金属氧化物纳米线以及单臂或者多壁纳米管材料; 二维纳米材料主要总结了以碳为基础的石墨烯材料和一些片状的金属材料。纳米材料对电化学葡萄糖传感器的影响主要集中在生物相容性、增强检测灵敏度、酶的固定等方面。此外,本文也对电化学葡萄糖传感器的今后发展做了展望。 相似文献
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《Electroanalysis》2006,18(18):1737-1748
Layer‐by‐layer (LBL) assemblies, which have undergone great progress in the past decades, have been used widely in the construction of electrochemical biosensors. The LBL assemblies provide a strategy to rationally design the properties of immobilized films and enhance the performance of biosensors. The following review focuses on the application of LBL assembly technique on electrochemical enzyme biosensors, immunosensors and DNA sensors. 相似文献
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Recent Advances in Electrochemical Sensors Based on Molecularly Imprinted Polymers and Nanomaterials
This review focuses on the recent achievement during period of 2013–2018 related to the electrochemical sensors based on molecularly imprinted polymers (MIPs) combined with nanomaterials for various kinds of applications. MIPs based electrochemical sensors have found a great interest due to their high stability, short time required for electropolymerization, and high specificity towards the target analyte. The sensitivity is considered as one of the important parameter in electrochemical sensing strategies that should be improved by the combination of highly conductive nanomaterials with selective MIPs. In general, the most employed nanomaterials are magnetic nanoparticles, gold nanoparticles (AuNPs), carbon nanotubes and graphene. This review discusses the main current achievement as well as the current challenges regarding the development of biomimetic sensors in electroanalysis. 相似文献
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由于独特的光、电、磁以及催化性质,功能性纳米材料的研究已经渗透到各个学科并在不同领域展示出潜在的应用前景,尤其是利用纳米材料构建功能性电极界面、研究其电化学行为并发展新颖的电化学纳米器件引起了了人们的广泛关注. 本篇综述中,主要介绍作者研究小组在以功能性纳米材料构建新颖的电化学界面的最新进展,集中关注其在电化学传感器、燃料电池以及光谱电化学中的应用. 这些纳米材料的应用极大地增强了电子转移、提高了电化学传感器的灵敏度以及燃料电池的催化效率. 作者也通过合成一些光谱匹配的荧光以及电致变色纳米材料构建新颖的荧光光谱电化学器件,同时在材料的合成组装、多重刺激响应体系以及多功能化进行探索. 最后,作者对这类基于纳米材料的电化学器件的发展和应用予以展望. 相似文献
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Dr. Valentyna Arkhypova Dr. Oleksandr Soldatkin Prof. Alexei Soldatkin Prof. Sergei Dzyadevych 《Chemical record (New York, N.Y.)》2024,24(2):e202300214
Several electrochemical biosensors based on various enzyme inhibition effects have been designed; their laboratory prototypes have been manufactured and thoroughly investigated. It should be noted that such biosensors are adapted to large-scale production technologies. A number of advantages and disadvantages of developed biosensors based on enzyme inhibition has been discussed. It is important that all developed biosensors are not opposite to traditional analytical methods, but complement them. This is an additional system of quick and early warning about the presence of toxic substances in the environment. Such systems can save time and money in emergencies due to the possibility of quick decision-making on local environmental problems. If necessary, more accurate, but time-consuming and expensive traditional methods could be used for further validation and additional research of samples previously tested by biosensors. 相似文献
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Huseyin Bekir Yildiz Dilek Odaci Demirkol Serkan Sayin Mustafa Yilmaz Ozcan Koysuren Musa Kamaci 《高分子科学杂志,A辑:纯化学与应用化学》2013,50(10):1075-1084
Accumulation of cholesterol in human blood can cause several health problems such as heart disease, coronary artery disease, arteriosclerosis, hypertension, cerebral thrombosis, etc. Therefore, simple and fast cholesterol determination in blood is clinically important. In this study, two types of amperometric cholesterol biosensors were designed by physically entrapping cholesterol oxidase in conducting polymers; thiophene capped poly(ethyleneoxide)/polypyrrole (PEO-co-PPy) and 3-methylthienyl methacrylate-co-p-vinyl benzyloxy poly(ethyleneoxide)/polypyrrole (CP-co-PPy). PEO-co-PPy and CP-co-PPy were synthesized electrochemically and cholesterol oxidase was immobilized by entrapment during electropolymerization. The amperometric responses of the enzyme electrodes were measured by monitoring oxidation current of H2O2 at +0.7 V in the absence of a mediator. Kinetic parameters, such as Km and Imax, operational and storage stabilities, effects of pH and temperature were determined for both entrapment supports. Km values were found as 1.47 and 5.16 mM for PEO-co-PPy and CP-co-PPy enzyme electrodes, respectively. By using these Km values, it can be observed that ChOx immobilized in PEO-co-PPy shows higher affinity towards the substrate. 相似文献