Layer-by-layer assembly of enzymes and polymerized mediator on electrode surface by electrostatic adsorption
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[1] N. Hu,et al. Assembly of electroactive layer-by-layer films of myoglobin and ionomer poly(ester sulfonic acid). , 2002, Journal of colloid and interface science.
[2] Lo Gorton,et al. Electrocatalytic oxidation of NAD(P) H at mediator-modified electrodes. , 2002, Journal of biotechnology.
[3] Katsuhiko Ariga,et al. A careful examination of the adsorption step in the alternate layer-by-layer assembly of linear polyanion and polycation , 1999 .
[4] A. English,et al. NAD(P)H Sensors Based on Enzyme Entrapment in Ferrocene-Containing Polyacrylamide-Based Redox Gels , 1998 .
[5] Takahiro Ito,et al. Optimization of the feedback constant control for the mass-controlled layer-by-layer sequential adsorption technique for polyelectrolyte thin films , 2001 .
[6] M. Senda,et al. Electron-transfer function of NAD+-immobilized alginic acid. , 1996, Biochimica et biophysica acta.
[7] Katsuhiko Ariga,et al. Molecular film assembly via layer-by-layer adsorption of oppositely charged macromolecules (linear polymer, protein and clay) and concanavalin A and glycogen , 1996 .
[8] Changqing Sun,et al. Fabrication of multilayer films containing horseradish peroxidase and polycation-bearing Os complex by means of electrostatic layer-by-layer adsorption and its application as a hydrogen peroxide sensor , 2000 .
[9] Mikio Sakakibara,et al. Electrochemical reduction of immobilized NADP+ on a polymer modified electrode with a co-polymerized mediator , 2002 .
[10] P. Tuñón,et al. Amperometric Biosensors Based on NAD(P)‐Dependent Dehydrogenase Enzymes , 1997 .
[11] A. Bassi,et al. Mediated, amperometric biosensor for glucose-6-phosphate monitoring based on entrapped glucose-6-phosphate dehydrogenase, Mg2+ ions, tetracyanoquinodimethane, and nicotinamide adenine dinucleotide phosphate in carbon paste. , 1999, Analytical biochemistry.
[12] N. Mano,et al. Mediator-modified electrodes for catalytic NADH oxidation: high rate constants at interesting overpotentials. , 2002, Bioelectrochemistry.
[13] K. Kano,et al. Electrochemical Oxidation of NADH Catalyzed by Diaphorase Conjugated with Poly-1-vinylimidazole Complexed with Os(2,2′-dipyridylamine)2Cl , 2002 .
[14] C Nicolini,et al. Cholesterol biosensors prepared by layer-by-layer technique. , 2001, Biosensors & bioelectronics.
[15] Gero Decher,et al. Fuzzy Nanoassemblies: Toward Layered Polymeric Multicomposites , 1997 .
[16] F. Scheller,et al. A Bienzyme Carbon Paste Electrode for the Sensitive Detection of NADPH and the Measurement of Glucose‐6‐phosphate Dehydrogenase , 1999 .
[17] Katsuhiko Ariga,et al. ASSEMBLY OF MULTICOMPONENT PROTEIN FILMS BY MEANS OF ELECTROSTATIC LAYER-BY-LAYER ADSORPTION , 1995 .
[18] S. Suye,et al. Electrochemical Regeneration of Immobilized NADP+on Alginic Acid with Polymerized Mediator , 2000 .
[19] M. L. Teijelo,et al. The structure of layer-by-layer self-assembled glucose oxidase and Os(Bpy)2ClPyCH2NH-poly(allylamine) multilayers: Ellipsometric and quartz crystal microbalance studies , 2002 .
[20] Futao Kaneko,et al. Polyelectrolyte adsorption processes characterized in situ using the quartz crystal microbalance technique: alternate adsorption properties in ultrathin polymer films , 2000 .
[21] E. Steckhan,et al. In situ NAD+ regeneration using 2,2′-azinobis(3-ethylbenzothiazoline-6-sulfonate) as an electron transfer mediator , 2003 .
[22] K. Ariga,et al. Activity and stability of glucose oxidase in molecular films assembled alternately with polyions. , 1999, Journal of bioscience and bioengineering.
[23] K. Kano,et al. Mediated bioelectrocatalysis based on nad-related enzymes with reversible characteristics , 1998 .
[24] B. D. Malhotra,et al. Mediated biosensors. , 2002, Biosensors & bioelectronics.
[25] C. Danilowicz,et al. Layer-by-layer self-assembly of glucose oxidase and Os(Bpy)2CIPyCH2NH-poly(allylamine) bioelectrode. , 2001, Analytical chemistry.