Titlebook: Enzymes for Solving Humankind‘s Problems; Natural and Artifici José J. G. Moura,Isabel Moura,Luisa B. Maia Book 2021 Springer Nature Switze

臥虎藏龍

Assembly and Function of Nitrogenasebine to provide unprecedented insights into the enigmatic mechanism of N. reduction. In this chapter, evidence that led up to these findings will be outlined and discussed in their respective contexts, followed by a brief perspective on the outlook of the nitrogenase field.

FLIRT

步履蹣跚

Book 2021nergy. It provides a comprehensive account of the state of the art of these systems and outlines the significant progress made in the last decade using these systems to develop innovative, sustainable and environmentally friendly solutions...Chapters from expert contributors explore how natural enzy

Galactogogue

profligate

978-3-030-58317-0Springer Nature Switzerland AG 2021

Suppository

https://doi.org/10.1007/978-3-319-26539-1that specifically catalyze the reversible reaction of H. production/uptake with almost no overpotential. In this chapter, we review the advances produced in the last decade in the biocatalytic production of H., including systems based on isolated hydrogenases as well as those using microorganisms through dark fermentation processes.

mastoid-bone

Koen H. Dam,Igor Nikolic,Zofia Lukszoe mechanisms of electrocatalytic proton reduction in both the natural enzymes and synthetic analogues of the active sites. The timeline of key breakthroughs for defining the enzymes as well as in hydrogenase-inspired biomimetic research serves as a basis for the discussion.

填料

Biological Production of Hydrogenthat specifically catalyze the reversible reaction of H. production/uptake with almost no overpotential. In this chapter, we review the advances produced in the last decade in the biocatalytic production of H., including systems based on isolated hydrogenases as well as those using microorganisms through dark fermentation processes.

Abutment

Organometallic Chemistry Control of Hydrogenasese mechanisms of electrocatalytic proton reduction in both the natural enzymes and synthetic analogues of the active sites. The timeline of key breakthroughs for defining the enzymes as well as in hydrogenase-inspired biomimetic research serves as a basis for the discussion.

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