Enzyme-based biohybrid foams designed for continuous flow heterogeneous catalysis and biodiesel production | Zendy

Nicolas Brun | Zendy; Annick Babeau-Garcia | Zendy; MarieFrance Achard | Zendy; Clément Sánchez | Zendy; Fabien Durand | Zendy; Guillaume Laurent | Zendy; Marc Birot | Zendy; Hervé Deleuze | Zendy; Rénal Backov | Zendy

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Enzyme-based biohybrid foams designed for continuous flow heterogeneous catalysis and biodiesel production

Author(s) -

Nicolas Brun,

Annick Babeau-Garcia,

MarieFrance Achard,

Clément Sánchez,

Fabien Durand,

Guillaume Laurent,

Marc Birot,

Hervé Deleuze,

Rénal Backov

Publication year - 2011

Publication title -

energy and environmental science

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 14.486

H-Index - 343

eISSN - 1754-5706

pISSN - 1754-5692

DOI - 10.1039/c1ee01295a

Subject(s) - catalysis , biodiesel production , transesterification , biodiesel , materials science , enzyme catalysis , steric effects , continuous flow , chemical engineering , immobilized enzyme , covalent bond , chemistry , organic chemistry , enzyme , biochemical engineering , engineering

5 pagesInternational audienceThe one-pot synthesis and use of monolithic biohybrid foams in a continuous flow device reported in here presents the advantages of covalent stabilization of the enzymes, together with a low steric hindrance between proteins and substrates, optimized mass transport due to the interconnected macroporous network and simplicity with regard to the column in situ synthetic path. Those features, when applied to transesterification (biodiesel production) via enzyme catalysis, provide among the top enzymatic activities displayed by biohybrid catalysts bearing unprecedented endurance of continuous catalysis for a two month period

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