Toward Diiron Dithiolato Biomimetics with Rotated Conformation of the [FeFe]‐Hydrogenase Active Site: A DFT Case Study on Electron‐Rich, Isocyanide‐Based Scaffolds
Author:
Affiliation:
1. Department of Biotechnologies and Biosciences University of Milano-Bicocca Piazza della Scienza 2 20126 Milan Italy
2. Department of Earth and Environmental Sciences University of Milano-Bicocca Piazza della Scienza 1 20126 Milan Italy
Publisher
Wiley
Subject
Inorganic Chemistry
Link
https://onlinelibrary.wiley.com/doi/pdf/10.1002/ejic.202200153
Reference65 articles.
1. Hydrogenases
2. Structure/Function Relationships of [NiFe]- and [FeFe]-Hydrogenases
3. Towards the hydrogen economy?
4. Hydrogen: the future energy carrier
5. The Crystal Structure of [Fe]-Hydrogenase Reveals the Geometry of the Active Site
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1. C–Cl Bond Activation at Rotated vs Unrotated Dinuclear Site Related to [FeFe]-Hydrogenases;Inorganic Chemistry;2023-12-04
2. Biomimetic Fe7S8/Carbon electrocatalyst from [FeFe]‐Hydrogenase for improving pH‐Universal electrocatalytic hydrogen production;Aggregate;2023-10-13
3. Synthesis, Spectroscopy, and Structure of [FeRu(μ-dithiolate)(CN)2(CO)4]2–;Inorganic Chemistry;2023-10-03
4. An unexpected leading role for [Fe2(CO)6(μ-pdt)] in our understanding of [FeFe]-H2ases and the search for clean hydrogen production;Coordination Chemistry Reviews;2023-09
5. Toward Diiron Dithiolato Biomimetics with Rotated Conformation of the [FeFe]‐Hydrogenase Active Site: A DFT Case Study on Electron‐Rich, Isocyanide‐Based Scaffolds;European Journal of Inorganic Chemistry;2022-03-30
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