Bioelectrocatalysis. Part II. Hydrogenase immobilized in polymeric semiconductors: the mechanism of electron transfer

S. D. Varfolomeyev; S. O. Bachurin

Journal Article

Bioelectrocatalysis. Part II. Hydrogenase immobilized in polymeric semiconductors: the mechanism of electron transfer

Varfolomeyev S
Bachurin S

Journal of Molecular Catalysis (1984) 27(3) 315-332

DOI: 10.1016/0304-5102(84)85089-0

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Abstract

The possibility of utilisation of polymeric [1,2] and low molecular weight [3,4] organic electroconductive enzyme supports for bioelectro-catalytic systems has recently been demonstrated. The aim of the present work was the development of kinetic models for analysis of the electron transport mechanism in a polymer semiconductor by using immobilized hydrogenase as the model enzyme system. © 1984.

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Varfolomeyev, S. D., & Bachurin, S. O. (1984). Bioelectrocatalysis. Part II. Hydrogenase immobilized in polymeric semiconductors: the mechanism of electron transfer. Journal of Molecular Catalysis, 27(3), 315–332. https://doi.org/10.1016/0304-5102(84)85089-0

Bioelectrocatalysis. Part II. Hydrogenase immobilized in polymeric semiconductors: the mechanism of electron transfer

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