反相微乳液法合成普鲁士蓝/聚吡咯复合纳米粒子的组装及电分析性能

Assembly and electroanalytical performance of Prussian blue/polypyrrole composite nanoparticles synthesized by the reverse micelle method.

作者信息

Miao Yuqing, Liu Jiwei

机构信息

Laboratory of Biocatalysis and Biosensor, Institute of Physical Chemistry, Zhejiang Normal University, Jinhua 321004, People's Republic of China.

出版信息

Sci Technol Adv Mater. 2009 Jul 10;10(2):025001. doi: 10.1088/1468-6996/10/2/025001. eCollection 2009 Apr.

DOI:10.1088/1468-6996/10/2/025001

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5090445/

Abstract

We report on the characterization, assembly and electroanalytical performance of Prussian blue/polypyrrole (PBPPy) composite nanoparticles synthesized by the reverse micelle method. Scanning electron microscopy suggests the formation of nanosized PBPPy particles with diameters between 40 and 50 nm. Optical absorption confirms that the particles are composed of Prussian blue (PB) and polypyrrole. PB and PBPPy nanoparticles were anchored onto the surface of cysteine-modified Au electrodes. Cyclic voltammetry experiments show that PB- or PBPPy-modified electrodes exhibit intrinsic electrochemical properties and a high electrocatalytic activity towards HO. PBPPy-modified electrodes exhibit a higher sensitivity to HO than PB-modified electrodes. A linear calibration curve in the concentration range 0.99 μM-8.26 mM HO is constructed with a detection limit of 0.23 μM at a signal-to-noise ratio of 3. Excellent stability is observed for PBPPy-composite-nanoparticle-modified electrodes even in a pH 6 phosphate buffer solution with a high HO concentration (0.99 mM). Glutaraldehyde and [Formula: see text] were also employed to immobilize glucose oxidase for the development of PBPPy-based biosensors. The results show that PBPPy composite nanoparticles can be used to develop oxidase-based biosensors.

摘要

我们报道了通过反胶束法合成的普鲁士蓝/聚吡咯（PBPPy）复合纳米粒子的表征、组装及电分析性能。扫描电子显微镜表明形成了直径在40至50纳米之间的纳米级PBPPy粒子。光吸收证实这些粒子由普鲁士蓝（PB）和聚吡咯组成。PB和PBPPy纳米粒子被固定在半胱氨酸修饰的金电极表面。循环伏安法实验表明，PB或PBPPy修饰的电极展现出固有电化学性质以及对HO的高电催化活性。PBPPy修饰的电极对HO的灵敏度高于PB修饰的电极。构建了浓度范围为0.99 μM至8.26 mM HO的线性校准曲线，在信噪比为3时检测限为0.23 μM。即使在高HO浓度（0.99 mM）的pH 6磷酸盐缓冲溶液中，PBPPy复合纳米粒子修饰的电极也表现出优异的稳定性。戊二醛和[化学式：见原文]也被用于固定葡萄糖氧化酶以开发基于PBPPy的生物传感器。结果表明，PBPPy复合纳米粒子可用于开发基于氧化酶的生物传感器。

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