Synthesis of a Nitrogenase PN -Cluster Model with [Fe8 S7 (μ-Sthiolate )2 ] Core from the All-Ferric [Fe4 S4 (Sthiolate )4 ] Cubane Synthon

Abstract

Constructing synthetic models of the nitrogenase P^N -cluster has been a long-standing synthetic challenge. Here, we report an optimal nitrogenase P^N -cluster model [{(TbtS)(OEt₂ )Fe₄ S₃ }₂ (μ-STbt)₂ (μ₆ -S)] (2) [Tbt=2,4,6-tris{bis(trimethylsilyl)methyl}phenyl] that is the closest synthetic mimic constructed to date. Of note is that two thiolate ligands and one hexacoordinated sulfide are connecting the two Fe₄ S₃ incomplete cubanes similar to the native P^N -cluster, which has never been achieved. Cluster 2 has been characterized by X-ray crystallography and relevant physico-chemical methods. The variable temperature magnetic moments of 2 indicate a singlet ground state (S=0). The Mössbauer spectrum of 2 exhibits two doublets with an intensity ratio of 3:1, which suggests the presence of two types of iron sites. The synthetic pathway of the cluster 2 could indicate the native P^N -cluster maturation process as it has been achieved from the Fe₄ S₄ cubane Fe₄ S₄ (STbt)₄ (1).

Keywords: 8Fe7S; Mössbauer; Nitrogenase; PN-Cluster.