Organometallic Diiron Complex Chemistry Related to the [2Fe] H Subsite of [FeFe]H 2 ase

Shima, S.
Thauer, R.

January 2007

Abstract The activation of molecular hydrogen is of interest both from a chemical and biological vie...

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

Popescu, Codrina V.

[[abstract]]Hydrogenases are iron enzymes that catalyze the reversible conversion of protons to mol....

The Crystal Structure of [Fe]-Hydrogenase Reveals the Geometry of the Active Site

Shima, S.
Pilak, O.
Vogt, S.
Schick, M.
Salamone Stagni, M.
Meyer-Klaucke, W.
Warkentin, E.
Thauer, R. K.
Ermler, U.

January 2008

Biological formation and consumption of molecular hydrogen (H2) are catalyzed by hydrogenases, of wh...

Organometallic Diiron Complex Chemistry Related to the [2Fe] H Subsite of [FeFe]H 2 ase

Capon, Jean-François
Gloaguen, Frederic
Pétillon, François Y.
Schollhammer, Philippe,
Talarmin, Jean

September 2008

International audienceDuring the last decade, the structure of the subsite of [FeFe]H2ases (or Fe-on...

Critical precursors to biomimetics of the diiron hydrogenase enzyme active site: Carbon monoxide mobilized 2Fe2S carbonyl clusters

Darensbourg, Marcetta Y.

[[abstract]]The impressive synthetic chem. that has developed following the elucidation of the organ...

Metallocofactor assembly for [FeFe]-hydrogenases

Dinis, Pedro
Wieckowski, Beata
Roach, Peter

December 2016

Hydrogenases are a potential source of environmentally benign bioenergy, using complex cofactors to ...

Hydrogenase Enzymes and Their Synthetic Models: The Role of Metal Hydrides

Schilter, David
Camara, James M.
Huynh, Mioy T.
Hammes-Schiffer, Sharon
Rauchfuss, Thomas B.

August 2016

Hydrogenase enzymes efficiently process H-2 and protons at organometallic FeFe, NiFe, or Fe active s...

Synthetic [FeFe] Hydrogenase Active Site Model Complexes

Schwartz, Lennart

January 2009

[FeFe]-Hydrogenases (H2ases) are metalloenzymes that can catalyze the reversible reduction of proton...

Ligand-assisted proton delivery in diiron complexes as electrocatalysts for H2 production: Ligand and complex synthesis

Zaibaq, Nicholas

[[abstract]]The active site of the enzyme diiron hydrogenase is of particular interest to inorg. che...

Tard, Cédric

September 2005

The work in this thesis is focused on the synthesis, reactivity and electrochemistry of chemical mod...

Dihydrogen Activation by a Diruthenium Analogue of the Fe-Only Hydrogenase Active Site

Aaron K. Justice
Rachel C. Linck
Thomas B. Rauchfuss
Scott R. Wilson

January 2004

Hydrogenases, enzymes that have been recognized since the 1930s, have come into sharp focus because ...

On the importance of cyanide in diiron bridging carbyne complexes, unconventional [FeFe]-hydrogenase mimics without dithiolate: An electrochemical and DFT investigation

Arrigoni F.
Bertini L.
De Gioia L.
Zampella G.
Mazzoni R.
Cingolani A.
Gualandi I.
Tonelli D.
Zanotti V.

January 2020

A large number of catalysts for hydrogen evolution reaction (HER) that are related (structurally and...

Role of the Metal Ion in Bio-Inspired Hydrogenase Models: Investigation of a Homodinuclear FeFe Complex vs Its Heterodinuclear NiFe Analogue

Wang, Lianke
Gennari, Marcello
Barrozo, Alexandre
Fize, Jennifer
Philouze, Christian
Demeshko, Serhiy
Meyer, Franc
Orio, Maylis
Artero, Vincent
Duboc, Carole

January 2020

International audienceIn nature, dihydrogen is catalytically produced or split by the [FeFe] and [Ni...

Studies of second coordination sphere effects and metal variations on [FeFe]-hydrogenase mimics

Redman, Holly J.

January 2022

Mitigation of climate change motivates researchers to explore hydrogen as a potential energy carrier...

The Chemical Record

Shima, S.
Thauer, R.

January 2007

Abstract The activation of molecular hydrogen is of interest both from a chemical and biological vie...

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

Popescu, Codrina V.

[[abstract]]Hydrogenases are iron enzymes that catalyze the reversible conversion of protons to mol....

The Crystal Structure of [Fe]-Hydrogenase Reveals the Geometry of the Active Site

Shima, S.
Pilak, O.
Vogt, S.
Schick, M.
Salamone Stagni, M.
Meyer-Klaucke, W.
Warkentin, E.
Thauer, R. K.
Ermler, U.

January 2008

Biological formation and consumption of molecular hydrogen (H2) are catalyzed by hydrogenases, of wh...

Organometallic Diiron Complex Chemistry Related to the [2Fe] H Subsite of [FeFe]H 2 ase

Capon, Jean-François
Gloaguen, Frederic
Pétillon, François Y.
Schollhammer, Philippe,
Talarmin, Jean

September 2008

International audienceDuring the last decade, the structure of the subsite of [FeFe]H2ases (or Fe-on...

Critical precursors to biomimetics of the diiron hydrogenase enzyme active site: Carbon monoxide mobilized 2Fe2S carbonyl clusters

Darensbourg, Marcetta Y.

[[abstract]]The impressive synthetic chem. that has developed following the elucidation of the organ...

Metallocofactor assembly for [FeFe]-hydrogenases

Dinis, Pedro
Wieckowski, Beata
Roach, Peter

December 2016

Hydrogenases are a potential source of environmentally benign bioenergy, using complex cofactors to ...

Hydrogenase Enzymes and Their Synthetic Models: The Role of Metal Hydrides

Schilter, David
Camara, James M.
Huynh, Mioy T.
Hammes-Schiffer, Sharon
Rauchfuss, Thomas B.

August 2016

Hydrogenase enzymes efficiently process H-2 and protons at organometallic FeFe, NiFe, or Fe active s...

Synthetic [FeFe] Hydrogenase Active Site Model Complexes

Schwartz, Lennart

January 2009

[FeFe]-Hydrogenases (H2ases) are metalloenzymes that can catalyze the reversible reduction of proton...

Ligand-assisted proton delivery in diiron complexes as electrocatalysts for H2 production: Ligand and complex synthesis

Zaibaq, Nicholas

[[abstract]]The active site of the enzyme diiron hydrogenase is of particular interest to inorg. che...

Tard, Cédric

September 2005

The work in this thesis is focused on the synthesis, reactivity and electrochemistry of chemical mod...

Dihydrogen Activation by a Diruthenium Analogue of the Fe-Only Hydrogenase Active Site

Aaron K. Justice
Rachel C. Linck
Thomas B. Rauchfuss
Scott R. Wilson

January 2004

Hydrogenases, enzymes that have been recognized since the 1930s, have come into sharp focus because ...

On the importance of cyanide in diiron bridging carbyne complexes, unconventional [FeFe]-hydrogenase mimics without dithiolate: An electrochemical and DFT investigation

Arrigoni F.
Bertini L.
De Gioia L.
Zampella G.
Mazzoni R.
Cingolani A.
Gualandi I.
Tonelli D.
Zanotti V.

January 2020

A large number of catalysts for hydrogen evolution reaction (HER) that are related (structurally and...

Role of the Metal Ion in Bio-Inspired Hydrogenase Models: Investigation of a Homodinuclear FeFe Complex vs Its Heterodinuclear NiFe Analogue

Wang, Lianke
Gennari, Marcello
Barrozo, Alexandre
Fize, Jennifer
Philouze, Christian
Demeshko, Serhiy
Meyer, Franc
Orio, Maylis
Artero, Vincent
Duboc, Carole

January 2020

International audienceIn nature, dihydrogen is catalytically produced or split by the [FeFe] and [Ni...

Studies of second coordination sphere effects and metal variations on [FeFe]-hydrogenase mimics

Redman, Holly J.

January 2022

Mitigation of climate change motivates researchers to explore hydrogen as a potential energy carrier...

The Chemical Record

Shima, S.
Thauer, R.

January 2007

Abstract The activation of molecular hydrogen is of interest both from a chemical and biological vie...

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

Popescu, Codrina V.

[[abstract]]Hydrogenases are iron enzymes that catalyze the reversible conversion of protons to mol....

The Crystal Structure of [Fe]-Hydrogenase Reveals the Geometry of the Active Site

Shima, S.
Pilak, O.
Vogt, S.
Schick, M.
Salamone Stagni, M.
Meyer-Klaucke, W.
Warkentin, E.
Thauer, R. K.
Ermler, U.

January 2008

Biological formation and consumption of molecular hydrogen (H2) are catalyzed by hydrogenases, of wh...

Organometallic Diiron Complex Chemistry Related to the [2Fe] H Subsite of [FeFe]H 2 ase

Abstract

Extracted data

Organometallic Diiron Complex Chemistry Related to the [2Fe] H Subsite of [FeFe]H 2 ase

Abstract

Extracted data

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