location: Current position: Home >> Scientific Research >> Paper Publications

Thiolate-Bridged Nickel Iron and Nickel Ruthenium Complexes Relevant to the CO-Inhibited State of [NiFe]-Hydrogenase

Hits:

Indexed by:期刊论文

Date of Publication:2016-03-14

Journal:ORGANOMETALLICS

Included Journals:SCIE、EI

Volume:35

Issue:5

Page Number:751-757

ISSN No.:0276-7333

Abstract:By employing S(CH2CH2S )(2) (tpdt) and O(CH2CH2S )(2) (opdt) as bridging ligands, two nickeliron and two nickelruthenium heterodimetallic complexes, [Cp*M(-1(3)SSS?:2(2)SS-tpdt)Ni(dppe)][PF6] (1, M = Fe; 3, M = Ru) and [Cp*M(-1 kappa(SSO)-S-3:2 kappa(SS)-S-2-opdt)Ni(dppe)][PF6] (2, M = Fe; 4, M = Ru) (Cp* = eta(5)-C5Me5; dppe = Ph2P(CH2)(2)PPh2), were obtained by a one-pot synthetic method and were identified by spectroscopy and X-ray crystallography. At 1 atm of CO, the pendant oxygen atom dissociated from the iron or ruthenium center and rapidly transferred to the nickel center when a CO molecule attacked the iron or ruthenium center in 2 and 4. However, there was no similar reaction occurring in 1 and 3 with the pendant sulfur atom. We confirmed the solid-state structure of the CO complex [Cp*Fe(t-CO)(mu-1 kappa(SS)-S-2:2 kappa(SSO)-S-3-opdt)Ni(dppe)][PF6] (5), which represents a possible configuration in the CO-inhibited state of [NiFe]-hydrogenase and exhibits no catalytic activity in electrochemical proton reduction.

Pre One:Alkyl Effects on the Chain Initiation Efficiency of Olefin Polymerization by Cationic Half-Sandwich Scandium Catalysts: A DFT Study

Next One:Intermetallic Cooperation in Olefin Polymerization Catalyzed by a Binuclear Samarocene Hydride: A Theoretical Study