Elucidating the Doping Effect on the Electronic Structure of Thiolate‐Protected Silver Superatoms by Photoelectron Spectroscopy

Superatom-in-Superatom [RhH@Ag24 (SPhMe2 )18 ]2- Nanocluster

Heterometal doping is a powerful method for tuning the physicochemical properties of metal nanoclusters. While the heterometals doped into such nanoclusters predominantly include transition metals with closed d-shells, the doping of open d-shell metals remains largely unexplored. Herein, we report the first synthesis of a [RhHAg₂₄ (SPhMe₂ )₁₈ ]^2- nanocluster, in which a Rh atom with open d-shells ([Kr]4d⁸ 5s¹ ) is incorporated into the Ag₂₄ framework by forming a RhH superatom with closed d-shells ([Kr]4d¹⁰ ). Combined experimental and theoretical investigations showed that the Ag₂₄ framework was co-doped with Rh and hydride and that the RhH dopant was a superatomic construct of a Pd atom. Additional studies demonstrated that the [RhHAg₂₄ (SPhMe₂ )₁₈ ]^2- nanocluster was isoelectronic to the [PdAg₂₄ (SPhMe₂ )₁₈ ]^2- nanocluster with the superatomic 8-electron configuration (1S² 1P⁶ ). This study demonstrated for the first time that a superatom could be incorporated into a cluster superatom to generate a stable superatom-in-superatom nanocluster.