Influence of pendant amines in phosphine ligands on the formation, structures, and electrochemical properties of diiron aminophosphine complexes related to [FeFe]-hydrogenases

A new series of diiron aminophosphine complexes 1–5 with the adtNPh bridge and reference analogue 7 have been obtained, aiming to better observe and compare the influence of pendant amines of phosphine ligands on the structures and electrocatalytic properties of diiron model complexes related to [Fe...

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Published in:Inorganica Chimica Acta 2019-09, Vol.495, p.119021, Article 119021
Main Authors: Hu, Meng-Yuan, Li, Jian-Rong, Jing, Xing-Bin, Tian, Hong, Zhao, Pei-Hua
Format: Article
Language:English
Subjects:
Acetic acid
Amines
Aromatic compounds
Atomic properties
Chemical analysis
Crystallography
Diiron aminophosphine complexes
Electrocatalytic proton reduction
Electrochemical analysis
Infrared analysis
Ligands
NMR
Nuclear magnetic resonance
Pendant amine
Protons
Structure
Substitution reactions
Synthesis
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Summary:A new series of diiron aminophosphine complexes 1–5 with the adtNPh bridge and reference analogue 7 have been obtained, aiming to better observe and compare the influence of pendant amines of phosphine ligands on the structures and electrocatalytic properties of diiron model complexes related to [FeFe]-hydrogenases in this work. [Display omitted] •New diiron aminophosphine complexes 1–5 and reference analogues 6, 7 were synthesized.•All the complexes are characterized by elemental analysis, various spectroscopies, and X-ray crystallography for 1, 2, 4, 7.•Structural and electrochemical comparisons of 1–5 and 7 are studied. Me3NO-assisted substitution reactions of precursor Fe2(μ-adtNPh)(CO)6 (A, adtNPh = SCH2N(Ph)CH2S) and aminodiphosphines (Ph2P)2NR with different N-aryl substituents (R) resulted in the unexpected formation of five new diiron aminophosphine complexes Fe2(μ-adtNPh)(CO)5{κ1-Ph2P(NHR)} (R = C6H5 (1), C6H4Me-p (2), C6H4OMe-p (3), C6H4CO2Me-p (4), and C6H4Cl-p (5)) with adtNPh bridge, which may be regarded as the active site models of [FeFe]-hydrogenases. In order to further observe the influence of the pendant amines of phosphine ligands on the formation, structures, and electrochemical properties of model complexes 1–5 obtained above, two reference analogues Fe2(μ-adtNPh)(CO)5(κ1-dppm) (6, dppm = (Ph2P)2CH2) and Fe2(μ-adtNPh)(CO)5{κ1-Ph2P(CH2Ph)} (7) were prepared from the similar treatment of A with the dppm or Ph2P(CH2Ph) ligands, respectively. Meanwhile, these new complexes 1–5 and 7 have been characterized by elemental analysis, FT-IR and NMR (1H, 31P) spectroscopies, and particularly for 1, 2, 4, 7 by X-ray crystallography, in which the P atoms of the Ph2P(NHR) ligands in 1, 2, 4 reside in an apical position whereas that of the Ph2P(CH2Ph) ligand in 7 occupies at a basal site in the solid state. In addition, the electrochemical and electrocatalytic behaviors of 1–5 and 7 are investigated and compared in the absence and presence of acetic acid (HOAc) as proton source using cyclic voltammetry (CV), indicating they are all found to be active eletrocatalysts for proton reduction to hydrogen (H2).
ISSN:0020-1693
1873-3255
DOI:10.1016/j.ica.2019.119021