Ligand-mediated ring →cube transformation in a catalytic subnanocluster: Co₄O₄(MeCN)_n with n = 1-6

We studied the Co₄O₄ subnanocluster and its MeCN-coated species using density functional theory, and we found that the Co₄O₄ core presents distinctive structures in bare and ligand-coated species. We propose a possible ligand-mediated ring → cube transformation mechanism during the ligand-coating process of the Co ₄O₄ core due to the stronger binding energies of the MeCN ligands to the 3D distorted cube structure than to the 2D ring and ladder structures; theory indicates that three ligands are sufficient to stabilize the cube structure. Both ring and cube structures are ferromagnetic. Our finding is potentially useful for understanding the catalysis mechanism of Co ₄O₄ species, which have important applications in solar energy conversion and water splitting; these catalysis reactions usually involve frequent addition and subtraction of various ligands and thus possibly involve core rearrangement processes similar to our findings.