Aromaticity in a Palladium-Capped Al<sub>6</sub> Trigonal Prismatic Cluster
Pengfei Chen, Jiaxin Chen, Yue Zhao, Jing Ma, Jin Xie, Congqing Zhu, Zhenyang Lin, Qin Zhu
Abstract
Aromaticity, a fundamental concept for understanding molecular stability, has long been established in organic chemistry. However, isolating examples of all-metal aromaticity has remained a rare achievement, despite its initial proposal in an Al 4 cluster two decades ago. In this study, we successfully isolated and characterized the first all-metal aluminum cluster with a trigonal prismatic geometry. X-ray crystallography reveals that each rectangular face of the Al 6 trigonal prism is capped by a Pd atom, which is further stabilized by six chelating monoanionic ligands and two counter potassium ions. The Pd-capped Al 6 trigonal prismatic cluster features three 3c–2e σ bonds in each of the top and bottom Al 3 layers, and a unique 6c–2e π–π interacting bond connecting the two Al 3 faces. Quantum chemical calculations provide strong evidence for aromaticity in the Pd-capped Al 6 trigonal prism. This discovery not only extends the concept of aromaticity to polyhedral aluminum clusters but also opens new avenues for the synthesis and exploration of novel all-metal aromatic systems.