Controlled Expansion of a Strong-Field Iron Nitride Cluster: Multi-Site Ligand Substitution as a Strategy for Activating Interstitial Nitride Nucleophilicity.
Myles J DranceCharles C MokhtarzadehMohand MelaimiDouglas W AgnewCurtis E MooreArnold L RheingoldJoshua S FigueroaPublished in: Angewandte Chemie (International ed. in English) (2018)
Multimetallic clusters have long been investigated as molecular surrogates for reactive sites on metal surfaces. In the case of the μ4 -nitrido cluster [Fe4 (μ4 -N)(CO)12 ]- , this analogy is limited owing to the electron-withdrawing effect of carbonyl ligands on the iron nitride core. Described here is the synthesis and reactivity of [Fe4 (μ4 -N)(CO)8 (CNArMes2 )4 ]- , an electron-rich analogue of [Fe4 (μ4 -N)(CO)12 ]- , where the interstitial nitride displays significant nucleophilicity. This characteristic enables rational expansion with main-group and transition-metal centers to yield unsaturated sites. The resulting clusters display surface-like reactivity through coordination-sphere-dependent atom rearrangement and metal-metal cooperativity.