Linking glucose oxidation to luminol-based electrochemiluminescence using bipolar electrochemistry
作者: Vera Eßmann , Daliborka Jambrec , Alexander Kuhn , Wolfgang Schuhmann
DOI: 10.1016/J.ELECOM.2014.11.015
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摘要: Abstract The range of potential analytes for bipolar electrochemistry can be significantly extended by modification electrodes with enzymatic biosensing layers. In this study, we employed a Prussian blue-based glucose detection system involving electrochemical reduction enzymatically generated hydrogen peroxide at the cathodic pole. concentration in solution correlated oxidative luminol electrochemiluminescence opposite anodic pole, which was recorded photomultiplier tube. This opens route novel analytical systems using oxidase as an amplification element reporter reaction.
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sci-hub.se 参考文章(29)
Xueping Ji, Jujie Ren, Ruixing Ni, Xiaohong Liu, A stable and controllable Prussian blue layer electrodeposited on self-assembled monolayers for constructing highly sensitive glucose biosensor Analyst. ,vol. 135, pp. 2092- 2098 ,(2010) , 10.1039/C0AN00019A
F. Ricci, D. Moscone, C.S. Tuta, G. Palleschi, A. Amine, A. Poscia, F. Valgimigli, D. Messeri, Novel planar glucose biosensors for continuous monitoring use. Biosensors and Bioelectronics. ,vol. 20, pp. 1993- 2000 ,(2005) , 10.1016/J.BIOS.2004.09.010
Zhenyu Chu, Lei Shi, Yannan Zhang, Wanqin Jin, Susan Warren, David Ward, Eithne Dempsey, Single layer Prussian blue grid as a versatile enzyme trap for low-potential biosensors Journal of Materials Chemistry. ,vol. 22, pp. 14874- 14879 ,(2012) , 10.1039/C2JM33083K
Yu Liu, Zhenyu Chu, Yannan Zhang, Wanqin Jin, Amperometric glucose biosensor with high sensitivity based on self-assembled Prussian Blue modified electrode Electrochimica Acta. ,vol. 54, pp. 7490- 7494 ,(2009) , 10.1016/J.ELECTACTA.2009.08.002
Kwok-Fan Chow, François Mavré, Richard M. Crooks, Wireless electrochemical DNA microarray sensor. Journal of the American Chemical Society. ,vol. 130, pp. 7544- 7545 ,(2008) , 10.1021/JA802013Q
S. Sakura, J. Terao, Determination of lipid hydroperoxides by electrochemiluminescence Analytica Chimica Acta. ,vol. 262, pp. 59- 65 ,(1992) , 10.1016/0003-2670(92)80008-U
Laurent Bouffier, Dodzi Zigah, Catherine Adam, Milica Sentic, Zahra Fattah, Dragan Manojlovic, Alexander Kuhn, Neso Sojic, Lighting Up Redox Propulsion with Luminol Electrogenerated Chemiluminescence ChemElectroChem. ,vol. 1, pp. 95- 98 ,(2014) , 10.1002/CELC.201300042
Rong Lei, Lutz Stratmann, Dominik Schäfer, Thomas Erichsen, Sebastian Neugebauer, Na Li, Wolfgang Schuhmann, Imaging biocatalytic activity of enzyme-polymer spots by means of combined scanning electrochemical microscopy/electrogenerated chemiluminescence. Analytical Chemistry. ,vol. 81, pp. 5070- 5074 ,(2009) , 10.1021/AC900192N
G. Merenyi, J. Lind, X. Shen, T. E. Eriksen, Oxidation potential of luminol: is the autooxidation of singlet organic molecules an outer-sphere electron transfer? The Journal of Physical Chemistry. ,vol. 94, pp. 748- 752 ,(1990) , 10.1021/J100365A043
Kingo Itaya, Tatsuaki Ataka, Shinobu Toshima, Spectroelectrochemistry and electrochemical preparation method of Prussian blue modified electrodes Journal of the American Chemical Society. ,vol. 104, pp. 4767- 4772 ,(1982) , 10.1021/JA00382A006