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СТРАТЕГИЯ РАЗРАБОТКИ БИОМАТЕРИАЛОВ ДЛЯ СОЗДАНИЯ ЭЛЕКТРОДОВ

https://doi.org/10.20914/2304-4691-2019-3-504-506

About the Authors

Н. Лакина
Тверской государственный технический университет
Russian Federation


В. Долуда
Тверской государственный технический университет
Russian Federation


В. Матвеева
Тверской государственный технический университет
Russian Federation


Э. Сульман
Тверской государственный технический университет
Russian Federation


References

1. Arechederra M.N., Jenkins C., Rincon R.A., Artyushkova K., Atanassov P., Minteer S.D. Chemical polymerization and electrochemical characterization of thiazines for NADH electrocatalysis applications Electrochim. Acta, 55 (2010), pp. 6659-6664.

2. Goran J.M., Favela C.A., Rust I.M., Stevenson K.J. Enhanced electrochemical oxidation of NADH at carbon nanotube electrodes using methylene green: is polymerization necessary J. Electrochem. Soc., 161 (2014), pp. Н3042 Н3048.

3. Meredith M., Giroud F., Minteer S.D. Azine/hydrogel/nanotube composite-modified electrodes for NADH catalysis and enzyme immobilization Electrochim. Acta, 72 (2012), pp. 207-214.

4. Katz E., Willner I. Kotlyar A.B Anon-compartmentalized glucose/О2 biofuel cell by bioengineered electrode surfaces J. Electroanal. Chem., 479 (1) (1999), pp. 64-68

5. Gregg B.A., A. Heller Cross-linked redox gels containing glucose oxidase for amperometric biosensor applications Anal. Chem., 62 (3) (1990), pp. 258-263.


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