Claudio Greco
TitoloCitata daAnno
A QM/MM investigation of the activation and catalytic mechanism of Fe-only hydrogenases
C Greco, M Bruschi, L De Gioia, U Ryde
Inorganic chemistry 46 (15), 5911-5921, 2007
Insights into the mechanism of electrocatalytic hydrogen evolution mediated by Fe2 (S2C3H6)(CO) 6: the simplest functional model of the Fe-hydrogenase active site
C Greco, G Zampella, L Bertini, M Bruschi, P Fantucci, L De Gioia
Inorganic chemistry 46 (1), 108-116, 2007
Influence of the [2Fe] H subcluster environment on the properties of key intermediates in the catalytic cycle of [FeFe] hydrogenases: hints for the rational design of syntheticá…
M Bruschi, C Greco, M Kaukonen, P Fantucci, U Ryde, L De Gioia
Angewandte Chemie International Edition 48 (19), 3503-3506, 2009
Lewis acid trapping of an elusive copper–tosylnitrene intermediate using scandium triflate
S Kundu, E Miceli, E Farquhar, FF Pfaff, U Kuhlmann, P Hildebrandt, ...
Journal of the American Chemical Society 134 (36), 14710-14713, 2012
Proton reduction and dihydrogen oxidation on models of the [2Fe] H cluster of [Fe] hydrogenases. A density functional theory investigation
G Zampella, C Greco, P Fantucci, L De Gioia
Inorganic chemistry 45 (10), 4109-4118, 2006
The oxidative inactivation of FeFe hydrogenase reveals the flexibility of the H-cluster
V Fourmond, C Greco, K Sybirna, C Baffert, PH Wang, P Ezanno, ...
Nature chemistry 6 (4), 336, 2014
Quantum refinement of [FeFe] hydrogenase indicates a dithiomethylamine ligand
U Ryde, C Greco, L De Gioia
Journal of the American Chemical Society 132 (13), 4512-4513, 2010
Investigations on the role of proton-coupled electron transfer in hydrogen activation by [FeFe]-hydrogenase
DW Mulder, MW Ratzloff, M Bruschi, C Greco, E Koonce, JW Peters, ...
Journal of the American Chemical Society 136 (43), 15394-15402, 2014
Structural and electronic properties of the [FeFe] hydrogenase H-cluster in different redox and protonation states. A DFT investigation
M Bruschi, C Greco, P Fantucci, LD Gioia
Inorganic chemistry 47 (13), 6056-6071, 2008
CO disrupts the reduced H-cluster of FeFe hydrogenase. A combined DFT and protein film voltammetry study
C Baffert, L Bertini, T Lautier, C Greco, K Sybirna, P Ezanno, E Etienne, ...
Journal of the American Chemical Society 133 (7), 2096-2099, 2011
Genetic analysis of polynucleotide phosphorylase structure and functions
F Briani, M Del Favero, R Capizzuto, C Consonni, S Zangrossi, C Greco, ...
Biochimie 89 (1), 145-157, 2007
Targeting intermediates of [FeFe]-hydrogenase by CO and CN vibrational signatures
L Yu, C Greco, M Bruschi, U Ryde, L De Gioia, M Reiher
Inorganic chemistry 50 (9), 3888-3900, 2011
Structural insights into the active-ready form of [FeFe]-hydrogenase and mechanistic details of its inhibition by carbon monoxide
C Greco, M Bruschi, J Heimdal, P Fantucci, L De Gioia, U Ryde
Inorganic chemistry 46 (18), 7256-7258, 2007
New FeI–FeI Complex Featuring a Rotated Conformation Related to the [2 Fe]H Subsite of [Fe–Fe] Hydrogenase
S Munery, JF Capon, L De Gioia, C Elleouet, C Greco, FY PÚtillon, ...
Chemistry–A European Journal 19 (46), 15458-15461, 2013
Access to a CuII–O–CuII Motif: Spectroscopic Properties, Solution Structure, and Reactivity
P Haack, A Kärgel, C Greco, J Dokic, B Braun, FF Pfaff, S Mebs, K Ray, ...
Journal of the American Chemical Society 135 (43), 16148-16160, 2013
Functionally Relevant Interplay between the Fe4S4 Cluster and CN Ligands in the Active Site of [FeFe]-Hydrogenases
M Bruschi, C Greco, L Bertini, P Fantucci, U Ryde, LD Gioia
Journal of the American Chemical Society 132 (14), 4992-4993, 2010
Mechanistic and physiological implications of the interplay among iron–sulfur clusters in [FeFe]-hydrogenases. A QM/MM perspective
C Greco, M Bruschi, P Fantucci, U Ryde, L De Gioia
Journal of the American Chemical Society 133 (46), 18742-18749, 2011
Combining experimental and theoretical methods to learn about the reactivity of gas-processing metalloenzymes
C Greco, V Fourmond, C Baffert, P Wang, S Dementin, P Bertrand, ...
Energy & Environmental Science 7 (11), 3543-3573, 2014
CO affinity and bonding properties of [FeFe] hydrogenase active site models. A DFT study
L Bertini, C Greco, M Bruschi, P Fantucci, L De Gioia
Organometallics 29 (9), 2013-2025, 2010
DFT/TDDFT Exploration of the Potential Energy Surfaces of the Ground State and Excited States of Fe2(S2C3H6)(CO)6: A Simple Functional Model of the [FeFeá…
L Bertini, C Greco, L De Gioia, P Fantucci
The Journal of Physical Chemistry A 113 (19), 5657-5670, 2009
Il sistema al momento non pu˛ eseguire l'operazione. Riprova pi¨ tardi.
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