Controlling Ligand Coordination Spheres and Cluster Fusion in Superatoms

Autor: Reed, Douglas A., Hochuli, Taylor J., Gadjieva, Natalia A., He, Shoushou, Wiscons, Ren A., Bartholomew, Amymarie K., Champsaur, Anouck M., Steigerwald, Michael L., Roy, Xavier, Nuckolls, Colin
Zdroj: Journal of the American Chemical Society; January 2022, Vol. 144 Issue: 1 p306-313, 8p
Abstrakt: We show that reaction pathways from a single superatom motif can be controlled through subtle electronic modification of the outer ligand spheres. Chevrel-type [Co6Se8L6] (L = PR3, CO) superatoms are used to form carbene-terminated clusters, the reactivity of which can be influenced through the electronic effects of the surrounding ligands. This carbene provides new routes for ligand substitution chemistry, which is used to selectively install cyanide or pyridine ligands which were previously inaccessible in these cobalt-based clusters. The surrounding ligands also impact the ability of this carbene to create larger fused clusters of the type [Co12Se16L10], providing underlying information for cluster fusion mechanisms. We use this information to develop methods of creating dimeric clusters with functionalized surface ligands with site specificity, putting new ligands in specific positions on this anisotropic core. Finally, adjusting the carbene intermediates can also be used to perturb the geometry of the [Co6Se8] core itself, as we demonstrate with a multicarbene adduct that displays a substantially anisotropic core. These additional levels of synthetic control could prove instrumental for using superatomic clusters for many applications including catalysis, electronic devices, and creating novel extended structures.
Databáze: Supplemental Index