The B<inf>2</inf> Structural Motif as a Tool for Modulating Ring Currents in Monocyclic Li Clusters

Abstract

Magnetically induced current densities, calculated at the M06-2X/def2-TZVP level using the diamagnetic-zero version of the continuous transformation of origin of current density (CTOCD-DZ) method, were employed to study the aromaticity in Li3 B2− and Li4 B2. It was found that the Li3 /Li4 rings in Li3 B2− and Li4 B2 remarkably resemble the monocyclic Li3+ and Li42+ clusters. Unlike the parent Li3+ and Li42+ systems that sustain negligibly weak global current density circulation, the Li3 B2− and Li4 B2 clusters exhibit a strong diatropic current density. The present work demonstrates how structural modifications introduced by the B2 unit can be used for modulating the current density in cyclic Li-based clusters.