A Tetranuclear Propane-1,3-Dithiolate Complex, [Fe2(CO)5{Ph2P(CH2)3}{(µ-SCH2)2CH2}]2, with a Bridging 1,6-Bis(diphenylphosphino)hexane Ligand

Carbonyl Displacement Reaction in Diiron Propane-Dithiolate Complex by Triphenylstibine: Crystal Structure of [Fe2(CO)6-n(SbPh3)n(μ-S2C3H6)] (n = 1 and 2)

(2021) Shafikul Islam et al.   JOURNAL OF CHEMICAL CRYSTALLOGRAPHY

Diiron propane-1,2-dithiolate complexes with monosubstituted tris(3-chlorophenyl)phosphine or tris(4-trifluoromethylphenyl)phosphine: synthesis, characterization, crystal structures, and electrochemistry

(2020) Lin Yan et al.   Inorganic and Nano-Metal Chemistry

Diiron propane-1,3-dithiolate complexes with monosubstituted tri(m-tolyl)phosphine or tris(3-fluorophenyl)phosphine: synthesis, characterization, crystal structures, and electrochemistry

(2020) Lin Yan et al.   MOLECULAR CRYSTALS AND LIQUID CRYSTALS

Synthesis of Diiron(I) Dithiolato Carbonyl Complexes

(2016) Yulong Li et al.   CHEMICAL REVIEWS

Biomimetics of the [FeFe]-hydrogenase enzyme: Identification of kinetically favoured apical-basal [Fe 2 (CO) 4 (μ-H){κ 2 -Ph 2 PC(Me 2 )PPh 2 }(μ-pdt)] + as a proton-reduction catalyst

(2016) Shishir Ghosh et al.   JOURNAL OF ORGANOMETALLIC CHEMISTRY

Synthesis and structures of diiron dithiolate complexes with 1,2-bis(diphenylphosphino)acetylene or tris(2-methoxyphenyl)phosphine

(2016) Xu-Feng Liu   POLYHEDRON

Hydrogenase biomimetics: structural and spectroscopic studies on diphosphine-substituted derivatives of Fe2(CO)6(µ-edt) (edt = ethanedithiolate) and Fe2(CO)6(µ-tdt) (tdt = 1,3-toluenedithiolate)

(2016) Shahed Rana et al.   TRANSITION METAL CHEMISTRY

Diiron Azadithiolates as Models for the [FeFe]-Hydrogenase Active Site and Paradigm for the Role of the Second Coordination Sphere

(2015) Thomas B. Rauchfuss   ACCOUNTS OF CHEMICAL RESEARCH

Nitrogen heterocyclic carbene containing pentacoordinate iron dicarbonyl as a [Fe]-hydrogenase active site model

(2015) Shuang Jiang et al.   DALTON TRANSACTIONS

N-Substituted Derivatives of the Azadithiolate Cofactor from the [FeFe] Hydrogenases: Stability and Complexation

(2015) Raja Angamuthu et al.   INORGANIC CHEMISTRY

Electrochemistry of Simple Organometallic Models of Iron–Iron Hydrogenases in Organic Solvent and Water

(2015) Frederic Gloaguen   INORGANIC CHEMISTRY

Spectroscopic Investigations of [FeFe] Hydrogenase Maturated with [57Fe2(adt)(CN)2(CO)4]2–

(2015) Ryan Gilbert-Wilson et al.   JOURNAL OF THE AMERICAN CHEMICAL SOCIETY

Crystal structure refinement withSHELXL

(2015) George M. Sheldrick   Acta Crystallographica Section C-Structural Chemistry

The influence of a S-to-S bridge in diiron dithiolate models on the oxidation reaction: a mimic of the Hairox state of [FeFe]-hydrogenases

(2014) Dehua Zheng et al.   CHEMICAL COMMUNICATIONS

Hydrogenases

(2014) Wolfgang Lubitz et al.   CHEMICAL REVIEWS

New Reactions of Terminal Hydrides on a Diiron Dithiolate

(2014) Wenguang Wang et al.   JOURNAL OF THE AMERICAN CHEMICAL SOCIETY

1,1′-bis(diphenylphosphino)ferrocene as an intramolecular or intermolecular bridging ligand related to the phenyl-functionalized diiron propanedithiolate complex: synthesis and catalysis of the reduction of protons

(2014) Chang-Gong Li et al.   TRANSITION METAL CHEMISTRY

Hydrogenase biomimetics: Fe2(CO)4(μ-dppf)(μ-pdt) (dppf = 1,1′-bis(diphenylphosphino)ferrocene) both a proton-reduction and hydrogen oxidation catalyst

(2013) Shishir Ghosh et al.   CHEMICAL COMMUNICATIONS

Models of the iron-only hydrogenase: a comparison of chelate and bridge isomers of Fe2(CO)4{Ph2PN(R)PPh2}(μ-pdt) as proton-reduction catalysts

(2013) Shishir Ghosh et al.   DALTON TRANSACTIONS

H2 Binding and Splitting on a New-Generation [FeFe]-Hydrogenase Model Featuring a Redox-Active Decamethylferrocenyl Phosphine Ligand: A Theoretical Investigation

(2013) Claudio Greco   INORGANIC CHEMISTRY

Synthesis and Crystal Structures of Diiron Dithiolate Complexes Containing Diphosphine Ligands

(2013) Xu-Feng Liu et al.   JOURNAL OF CLUSTER SCIENCE

Fluorinated models of the iron-only hydrogenase: An electrochemical study of the influence of an electron-withdrawing bridge on the proton reduction overpotential and catalyst stability

(2013) Faith Ridley et al.   JOURNAL OF ELECTROANALYTICAL CHEMISTRY

The employment of a hydrophilic tris(morpholino)phosphine ligand in diiron propane-1,3-dithiolate complexes for potentially water-soluble iron-only hydrogenase active-site mimics

(2013) Shang Gao et al.   NEW JOURNAL OF CHEMISTRY

Influences on the rotated structure of diiron dithiolate complexes: electronic asymmetry vs. secondary coordination sphere interaction

(2011) Yu-Chiao Liu et al.   DALTON TRANSACTIONS

Spectroscopically characterized intermediates of catalytic H2 formation by [FeFe] hydrogenase models

(2011) Stefanie Tschierlei et al.   Energy & Environmental Science

Synthesis, structural characterization and electrochemical studies of [Fe2(μ-L)(CO)6] and [Fe2(μ-L)(CO)5(PPh3)] (L = pyrazine-2,3-dithiolate, quinoxaline-2,3-dithiolate and pyrido[2,3-b]pyrazine-2,3-dithiolate): Towards modeling the active site of [FeFe]–Hydrogenase

(2011) Gummadi Durgaprasad et al.   JOURNAL OF ORGANOMETALLIC CHEMISTRY

Combining acid–base, redox and substrate binding functionalities to give a complete model for the [FeFe]-hydrogenase

(2011) James M. Camara et al.   Nature Chemistry

Synthesis and structural characterization of a diiron propanedithiolate complex [(μ-PDT)Fe2(CO)5]2[(η5-Ph2PC5H4)2Fe] containing a bidentate phosphine ligand 1,1′-bis(diphenylphosphino)ferrocene

(2010) Xu-Feng Liu et al.   JOURNAL OF COORDINATION CHEMISTRY

Structural and Functional Analogues of the Active Sites of the [Fe]-, [NiFe]-, and [FeFe]-Hydrogenases†

(2009) Cédric Tard et al.   CHEMICAL REVIEWS

Structures, protonation, and electrochemical properties of diiron dithiolate complexes containing pyridyl-phosphine ligands

(2009) Ping Li et al.   DALTON TRANSACTIONS

Preparation, Facile Deprotonation, and Rapid H/D Exchange of the μ-Hydride Diiron Model Complexes of the [FeFe]-Hydrogenase Containing a Pendant Amine in a Chelating Diphosphine Ligand

(2009) Ning Wang et al.   INORGANIC CHEMISTRY

OLEX2: a complete structure solution, refinement and analysis program

(2009) Oleg V. Dolomanov et al.   JOURNAL OF APPLIED CRYSTALLOGRAPHY

Review of electrochemical studies of complexes containing the Fe2S2 core characteristic of [FeFe]-hydrogenases including catalysis by these complexes of the reduction of acids to form dihydrogen

(2009) Greg A.N. Felton et al.   JOURNAL OF ORGANOMETALLIC CHEMISTRY

Small molecule mimics of hydrogenases: hydrides and redox

(2008) Frédéric Gloaguen et al.   CHEMICAL SOCIETY REVIEWS

Models of the iron-only hydrogenase: Synthesis and protonation of bridge and chelate complexes [Fe2(CO)4{Ph2P(CH2)nPPh2}(μ-pdt)] (n=2–4) – evidence for a terminal hydride intermediate

(2008) Fatima I. Adam et al.   COMPTES RENDUS CHIMIE

CO-Migration in the Ligand Substitution Process of the Chelating Diphosphite Diiron Complex (μ-pdt)[Fe(CO)3][Fe(CO){(EtO)2PN(Me)P(OEt)2}]

(2008) Ning Wang et al.   INORGANIC CHEMISTRY

Influence of a Pendant Amine in the Second Coordination Sphere on Proton Transfer at a Dissymmetrically Disubstituted Diiron System Related to the [2Fe]HSubsite of [FeFe]H2ase

(2008) Salah Ezzaher et al.   INORGANIC CHEMISTRY

Electrochemical study of the role of a H-bridged, unsymmetrically disubstituted diiron complex in proton reduction catalysis

(2008) Salah Ezzaher et al.   JOURNAL OF ELECTROANALYTICAL CHEMISTRY

Synthesis and structural characterization of the mono- and diphosphine-containing diiron propanedithiolate complexes related to [FeFe]-hydrogenases. Biomimetic H2 evolution catalyzed by (μ-PDT)Fe2(CO)4[(Ph2P)2N(n-Pr)]

(2008) Li-Cheng Song et al.   JOURNAL OF INORGANIC BIOCHEMISTRY

Investigations on the Active Site Models of [FeFe]-Hydrogenases: Synthesis, Structure, and Properties of N-Functionalized Azadithiolatodiiron Complexes Containing Mono- and Diphosphine Ligands

(2008) Li-Cheng Song et al.   ORGANOMETALLICS

Supramolecular self-assembly of a [2Fe2S] complex with a hydrophilic phosphine ligand

(2007) Ping Li et al.   CRYSTENGCOMM