| 102 / 2 |
Further mechanistic studies of carbon monoxide induced reductive elimination of disulfide in N-heterocyclic carbene (NHC)/thiolate dinitrosyl iron complexes (DNICs)
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2014-03-28 |
| 101 / 2 |
Ambidentate thiocyanate ligand in dinitrosyl iron complexes
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2014-03-28 |
| 101 / 2 |
Cis-NiN2S2 metallodithiolates as mono- and bidentate S-donors to gold (I)
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2014-03-28 |
| 101 / 2 |
Dinitrosyl iron adducts of (N2S2)M(NO) complexes (M=Ni, Fe, Co) as metallodithiolate ligands
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2014-03-28 |
| 101 / 2 |
Electronic effects of metallodithiolate ligands on [FeFe]-H2ase active site model compounds
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2014-03-28 |
| 102 / 1 |
Iron-nitrosyl paradigm for base metal proton reduction electrocatalysis
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2014-03-28 |
| 101 / 2 |
Ligand-assisted proton delivery in diiron complexes as electrocatalysts for H2 production: Ligand and complex synthesis
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2014-03-28 |
| 101 / 2 |
N2S2-nickel and iron nitrosyls as metallo ligands in synthetic analogs of the [FeFe]-H2ase enzyme active site
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2014-03-28 |
| 101 / 2 |
Structural and spectroscopic features of mixed valent FeIIFeI complexes and factors related to the rotated configuration of diiron hydrogenase
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2014-03-28 |
| 101 / 1 |
Base-promoted tautomerization of imidazoles to N-heterocyclic carbenes (NHCs): Via a dinitrosyl iron scaffold
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2014-03-28 |
| 101 / 1 |
Critical precursors to biomimetics of the diiron hydrogenase enzyme active site: Carbon monoxide mobilized 2Fe2S carbonyl clusters
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2014-03-28 |
| 101 / 1 |
Moessbauer studies of mixed-valence Fe(II)Fe(I) and Fe(I)Fe(I) model complexes illustrating states of the H-cluster in [Fe-Fe]-hydrogenases
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2014-03-28 |
| 101 / 1 |
Moessbauer studies of model complexes for the H-cluster in [Fe-Fe]-hydrogenases: Electronic structure of mixed-valence complexes containing low-spin Fe(I)
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2014-03-28 |
| 101 / 1 |
Paramagnetic transition metal ions in N2S2 coordination
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2014-03-28 |
| 101 / 1 |
Rich man's proton: Triphenylphosphinegold as probe of hydride positions in organo- and bioorgano-metallic complexes
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2014-03-28 |
| 100 / 2 |
When iron meets nitric oxide: Good chemistry, intriguing biology
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2014-03-28 |
| 099 / 2 |
Synthesis, characterization, and reactivity of dinitrosyl iron complexes stabilized by N-heterocyclic carbenes
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2014-03-28 |
| 100 / 1 |
The vanadyl ion in N2S2 coordination
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2014-03-28 |
| 102 / 1 |
A NEW MEMBER OF TETRANUCLEAR DINITROSYL IRON COMPLEXES
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2014-04-23 |
| 103 / 1 |
Carbon monoxide induced elimination of disulfide from dinitrosyl iron complexes: Hammett correlations of para-substituted [(NHC)Fe(NO)2S(p-PhX)] compounds
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2014-08-26 |
| 105 / 2 |
Unleashing a pendant base by reduction-induced hemilability in [NiN2S2.Fe(NO)2]+/0 complexes
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2019-04-25 |
| 105 / 1 |
Advances in the preparation of redox active NiFe complexes based on NiN2S2-Fe(NO)2 as synthetic analogues of [NiFe]-hydrogenase enzyme active site
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2018-05-31 |
| 104 / 2 |
Comparison of S-H bond vs. S-Au bond beyond the isolobal relationship between proton and gold-phosphine anion
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2018-04-26 |
| 105 / 1 |
Dinitrosyl iron units as redox markers to generate synthetic analogues of [NiFe]-hydrogenase enzyme active site
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2019-04-25 |
| 106 / 2 |
Triplet, high-spin, linear {Fe(NO)}8: Redox feature of a stable diiron trinitrosyl complex
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2019-04-25 |
| 106 / 2 |
Metallodithiolate ligands as pendant base in [FeIFeI], [FeI[Fe(NO)]II] and [(μ-H)FeIIFeII] systems
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2019-04-25 |