Abstract

PART I: PRIMORDIAL METAL-SULFUR MEDIATED REACTIONS From Chemical Invariance to Genetic Variability Fe-S Clusters: Biogenesis and Redox, Catalytic and Regulatory Properties PART II: MODEL COMPLEXES OF THE ACTIVE SITE OF HYDROGENASES - PROTON AND DIHYDROGEN ACTIVATION [NiFe] Hydrogenases [Fe-Fe]Hydrogenases Models: An Overview The Third Hydrogenase DFT Investigation of Models Related to the Active Site of Hydrogenases Mechanistic Aspects of Biological Hydrogen Evolution and Uptake PART III: NITROGEN FIXATION Structures and Functions of the Active Site of Nitrogenases Model Complexes of the Active Site of Nitrogenases: Recent Advances A Unified Chemical Mechanism for Hydrogenation Reactions Catalysed by Nitrogenase Binding Substrates to Synthetic Fe-S-Based Clusters and the Possible Relevance to Nitrogenases PART IV: MISCELLANEOUS: RCN ACTIVATION, DMSO REDUCTION Sulfur-Oxygenation and Functional Models of Nitrile Hydratase Molybdenum and Tungsten Oxidoreductase Models PART V: APPLICATIVE PERSPECITVES Electrode Materials and Artificial Photosynthetic Systems

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