[FeFe]-Hydrogenase H-Cluster Mimics with Unique Planar μ-(SCH2)2ER2Linkers (E=Ge and Sn)

Hassan Abul-Futouh; Laith R. Almazahreh; Takahiro Sakamoto; Nhu Y.T. Stessman; Dennis L. Lichtenberger; Richard S. Glass; Helmar Görls; Mohammad El-Khateeb; Philippe Schollhammer; Grzegorz Mloston; Wolfgang Weigand

doi:10.1002/chem.201603843

[FeFe]-Hydrogenase H-Cluster Mimics with Unique Planar μ-(SCH₂)₂ER₂Linkers (E=Ge and Sn)

Hassan Abul-Futouh, Laith R. Almazahreh, Takahiro Sakamoto, Nhu Y.T. Stessman, Dennis L. Lichtenberger, Richard S. Glass, Helmar Görls, Mohammad El-Khateeb, Philippe Schollhammer, Grzegorz Mloston, Wolfgang Weigand

Chemistry and Biochemistry

Research output: Contribution to journal › Article › peer-review

31 Scopus citations

Abstract

Analogues of the [2Fe-2S] subcluster of hydrogenase enzymes in which the central group of the three-atom chain linker between the sulfur atoms is replaced by GeR₂and SnR₂groups are studied. The six-membered FeSCECS rings in these complexes (E=Ge or Sn) adopt an unusual conformation with nearly co-planar SCECS atoms perpendicular to the Fe-Fe core. Computational modelling traces this result to the steric interaction of the Me groups with the axial carbonyls of the Fe₂(CO)₆cluster and low torsional strain for GeMe₂and SnMe₂moieties owing to the long C−Ge and C−Sn bonds. Gas-phase photoelectron spectroscopy of these complexes shows a shift of ionization potentials to lower energies with substantial sulfur orbital character and, as supported by the computations, an increase in sulfur character in the predominantly metal–metal bonding HOMO. Cyclic voltammetry reveals that the complexes follow an ECE-type reduction mechanism (E=electron transfer and C=chemical process) in the absence of acid and catalysis of proton reduction in the presence of acid. Two cyclic tetranuclear complexes featuring the sulfur atoms of two Fe₂S₂(CO)₆cores bridged by CH₂SnR₂CH₂, R=Me, Ph, linkers were also obtained and characterized.

Original language	English (US)
Pages (from-to)	346-359
Number of pages	14
Journal	Chemistry - A European Journal
Volume	23
Issue number	2
DOIs	https://doi.org/10.1002/chem.201603843
State	Published - Jan 5 2017

Keywords

conformational analysis
density functional calculations
electrocatalysis
photoelectron
sulfur

ASJC Scopus subject areas

Catalysis
Organic Chemistry

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10.1002/chem.201603843

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[FeFe]-Hydrogenase H-Cluster Mimics with Unique Planar μ-(SCH₂)₂ER₂Linkers (E=Ge and Sn). / Abul-Futouh, Hassan; Almazahreh, Laith R.; Sakamoto, Takahiro; Stessman, Nhu Y.T.; Lichtenberger, Dennis L.; Glass, Richard S.; Görls, Helmar; El-Khateeb, Mohammad; Schollhammer, Philippe; Mloston, Grzegorz; Weigand, Wolfgang.

In: Chemistry - A European Journal, Vol. 23, No. 2, 05.01.2017, p. 346-359.

Research output: Contribution to journal › Article › peer-review

Abul-Futouh, Hassan ; Almazahreh, Laith R. ; Sakamoto, Takahiro ; Stessman, Nhu Y.T. ; Lichtenberger, Dennis L. ; Glass, Richard S. ; Görls, Helmar ; El-Khateeb, Mohammad ; Schollhammer, Philippe ; Mloston, Grzegorz ; Weigand, Wolfgang. / [FeFe]-Hydrogenase H-Cluster Mimics with Unique Planar μ-(SCH₂)₂ER₂Linkers (E=Ge and Sn). In: Chemistry - A European Journal. 2017 ; Vol. 23, No. 2. pp. 346-359.

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title = "[FeFe]-Hydrogenase H-Cluster Mimics with Unique Planar μ-(SCH2)2ER2Linkers (E=Ge and Sn)",

abstract = "Analogues of the [2Fe-2S] subcluster of hydrogenase enzymes in which the central group of the three-atom chain linker between the sulfur atoms is replaced by GeR2and SnR2groups are studied. The six-membered FeSCECS rings in these complexes (E=Ge or Sn) adopt an unusual conformation with nearly co-planar SCECS atoms perpendicular to the Fe-Fe core. Computational modelling traces this result to the steric interaction of the Me groups with the axial carbonyls of the Fe2(CO)6cluster and low torsional strain for GeMe2and SnMe2moieties owing to the long C−Ge and C−Sn bonds. Gas-phase photoelectron spectroscopy of these complexes shows a shift of ionization potentials to lower energies with substantial sulfur orbital character and, as supported by the computations, an increase in sulfur character in the predominantly metal–metal bonding HOMO. Cyclic voltammetry reveals that the complexes follow an ECE-type reduction mechanism (E=electron transfer and C=chemical process) in the absence of acid and catalysis of proton reduction in the presence of acid. Two cyclic tetranuclear complexes featuring the sulfur atoms of two Fe2S2(CO)6cores bridged by CH2SnR2CH2, R=Me, Ph, linkers were also obtained and characterized.",

keywords = "conformational analysis, density functional calculations, electrocatalysis, photoelectron, sulfur",

author = "Hassan Abul-Futouh and Almazahreh, {Laith R.} and Takahiro Sakamoto and Stessman, {Nhu Y.T.} and Lichtenberger, {Dennis L.} and Glass, {Richard S.} and Helmar G{\"o}rls and Mohammad El-Khateeb and Philippe Schollhammer and Grzegorz Mloston and Wolfgang Weigand",

note = "Funding Information: The authors (T.S., D.L.L., and R.S.G.) gratefully acknowledge support of this work by the US National Science Foundation (Grant Nos. 1111718 and 1111570). L.A. and H.A. are grateful to the Deutscher Akademischer Austausch Dienst (DAAD) for scholarships. G.M. and W.W. thank the National Science Center (Cracow, PL) for financial support (Grant Maestro-3; Dec-2012/06/A/ST5/00219). P.S. and W.W. gratefully acknowledge the DAAD for the PROCOPE Project-Related Personal Exchange Program. Publisher Copyright: {\textcopyright} 2017 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim",

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T1 - [FeFe]-Hydrogenase H-Cluster Mimics with Unique Planar μ-(SCH2)2ER2Linkers (E=Ge and Sn)

AU - Abul-Futouh, Hassan

AU - Almazahreh, Laith R.

AU - Sakamoto, Takahiro

AU - Stessman, Nhu Y.T.

AU - Lichtenberger, Dennis L.

AU - Glass, Richard S.

AU - Görls, Helmar

AU - El-Khateeb, Mohammad

AU - Schollhammer, Philippe

AU - Mloston, Grzegorz

AU - Weigand, Wolfgang

N1 - Funding Information: The authors (T.S., D.L.L., and R.S.G.) gratefully acknowledge support of this work by the US National Science Foundation (Grant Nos. 1111718 and 1111570). L.A. and H.A. are grateful to the Deutscher Akademischer Austausch Dienst (DAAD) for scholarships. G.M. and W.W. thank the National Science Center (Cracow, PL) for financial support (Grant Maestro-3; Dec-2012/06/A/ST5/00219). P.S. and W.W. gratefully acknowledge the DAAD for the PROCOPE Project-Related Personal Exchange Program. Publisher Copyright: © 2017 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim

PY - 2017/1/5

Y1 - 2017/1/5

N2 - Analogues of the [2Fe-2S] subcluster of hydrogenase enzymes in which the central group of the three-atom chain linker between the sulfur atoms is replaced by GeR2and SnR2groups are studied. The six-membered FeSCECS rings in these complexes (E=Ge or Sn) adopt an unusual conformation with nearly co-planar SCECS atoms perpendicular to the Fe-Fe core. Computational modelling traces this result to the steric interaction of the Me groups with the axial carbonyls of the Fe2(CO)6cluster and low torsional strain for GeMe2and SnMe2moieties owing to the long C−Ge and C−Sn bonds. Gas-phase photoelectron spectroscopy of these complexes shows a shift of ionization potentials to lower energies with substantial sulfur orbital character and, as supported by the computations, an increase in sulfur character in the predominantly metal–metal bonding HOMO. Cyclic voltammetry reveals that the complexes follow an ECE-type reduction mechanism (E=electron transfer and C=chemical process) in the absence of acid and catalysis of proton reduction in the presence of acid. Two cyclic tetranuclear complexes featuring the sulfur atoms of two Fe2S2(CO)6cores bridged by CH2SnR2CH2, R=Me, Ph, linkers were also obtained and characterized.

AB - Analogues of the [2Fe-2S] subcluster of hydrogenase enzymes in which the central group of the three-atom chain linker between the sulfur atoms is replaced by GeR2and SnR2groups are studied. The six-membered FeSCECS rings in these complexes (E=Ge or Sn) adopt an unusual conformation with nearly co-planar SCECS atoms perpendicular to the Fe-Fe core. Computational modelling traces this result to the steric interaction of the Me groups with the axial carbonyls of the Fe2(CO)6cluster and low torsional strain for GeMe2and SnMe2moieties owing to the long C−Ge and C−Sn bonds. Gas-phase photoelectron spectroscopy of these complexes shows a shift of ionization potentials to lower energies with substantial sulfur orbital character and, as supported by the computations, an increase in sulfur character in the predominantly metal–metal bonding HOMO. Cyclic voltammetry reveals that the complexes follow an ECE-type reduction mechanism (E=electron transfer and C=chemical process) in the absence of acid and catalysis of proton reduction in the presence of acid. Two cyclic tetranuclear complexes featuring the sulfur atoms of two Fe2S2(CO)6cores bridged by CH2SnR2CH2, R=Me, Ph, linkers were also obtained and characterized.

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KW - density functional calculations

KW - electrocatalysis

KW - photoelectron

KW - sulfur

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