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The missing pieces in the catalytic cycle of [FeFe] hydrogenases

Manon T. Lachmann, Zehui Duan, Patricia Rodríguez‐Maciá, James A. Birrell

2024Chemical Science15 citationsDOIOpen Access PDF

Abstract

Hydrogen could provide a suitable means for storing energy from intermittent renewable sources for later use on demand. However, many challenges remain regarding the activity, specificity, stability and sustainability of current hydrogen production and consumption methods. The lack of efficient catalysts based on abundant and sustainable elements lies at the heart of this problem. Nature's solution led to the evolution of hydrogenase enzymes capable of reversible hydrogen conversion at high rates using iron- and nickel-based active sites. Through a detailed understanding of these enzymes, we can learn how to mimic them to engineer a new generation of highly active synthetic catalysts. Incredible progress has been made in our understanding of biological hydrogen activation over the last few years. In particular, detailed studies of the [FeFe] hydrogenase class have provided substantial insight into a sophisticated, optimised, molecular catalyst, the active site H-cluster. In this short perspective, we will summarise recent findings and highlight the missing pieces needed to complete the puzzle.

Topics & Concepts

HydrogenaseCatalysisBiochemical engineeringHydrogen productionRenewable energyHydrogenActive siteSustainabilityCatalytic cycleNickelNanotechnologyHydrogen moleculeMaterials scienceCombinatorial chemistryChemistryBiologyEngineeringEcologyBiochemistryOrganic chemistryMetalloenzymes and iron-sulfur proteinsElectrocatalysts for Energy ConversionAsymmetric Hydrogenation and Catalysis
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