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Catalytic H2 evolution/oxidation in [FeFe]-hydrogenase biomimetics: account from DFT on the interplay of related issues and proposed solutions

Authors :
Arrigoni, F
Bertini, L
Breglia, R
Greco, C
De Gioia, L
Zampella, G
Arrigoni, Federica
Bertini, Luca
Breglia, Raffaella
Greco, Claudio
De Gioia, Luca
Zampella, Giuseppe
Arrigoni, F
Bertini, L
Breglia, R
Greco, C
De Gioia, L
Zampella, G
Arrigoni, Federica
Bertini, Luca
Breglia, Raffaella
Greco, Claudio
De Gioia, Luca
Zampella, Giuseppe
Publication Year :
2020

Abstract

This perspective aims at illustrating a computational viewpoint on some specific issues concerning structure–activity relationships related to [FeFe]-hydrogenase ([FeFe]-H2ase) biomimicry. Most of the research outlined herein has been addressed by means of density functional theory (DFT) based tools, in some cases in conjunction with experimental techniques. The number of computational, experimental and mixed approach studies on the “hydrogenase models” topic is extraordinarily high. Accordingly, several comprehensive reviews have been published over the last twenty years. Moreover, the number of iron compounds of increasing nuclearity that have been considered as “biomimetic models” of [FeFe]-H2ase has grown exponentially over time. Additionally, the issues regarding some mismatches existing between the natural system and related synthetic analogues, are quite variegated. As a consequence of the countless examples that could be considered as related to “hydrogenase mimicry”, the intent of the present contribution is to provide an account of a limited number of recent study cases, in which DFT has been employed to elucidate redox properties, reactivity issues of selected examples of diiron biomimicry. Herein the treated topics have been explicitly chosen to show how DFT has allowed us to rationalize and complement experimental observations, with a special focus on electrocatalysis aspects. Finally, the specific purpose of this perspective is to show how mutually intertwined are the various issues concerning a fascinating branch of biomimetic research.

Details

Database :
OAIster
Notes :
STAMPA, English
Publication Type :
Electronic Resource
Accession number :
edsoai.on1308936908
Document Type :
Electronic Resource