Planar Pentacoordinate Halogens
Li-juan Cui, Lin-hong Miao, Mesías Orozco‐Ic, Lu Li, Sudip Pan, Gabriel Merino, Zhong‐hua Cui
Abstract
Abstract Planar hypercoordinate motifs represent an intriguing frontier in chemistry, challenging traditional bonding norms. As electronegativity of the central atom increases, achieving planar hypercoordination becomes more difficult due to restricted delocalization, making the design of planar hypercoordinate halogens particularly puzzling. Here, we conduct an extensive computational survey of Li n X n+1 − ( n =4, 5, 6; X=F, Cl, Br, I) clusters, revealing a starlike D 5 h ‐symmetry global minimum in Li 5 X 6 − (X=F, Cl, Br) with a planar pentacoordinate halogen (ppX), where X − is located at the center of Li 5 X 5 crown. The clusters are stabilized predominantly through electrostatic interactions between X − and Li 5 X 5 , complemented by weak covalent bonding from dative interaction. Due to the weak orbital overlap, ppX clusters exhibit localized diatropic ring currents around X and Li.