Isolation of an Anionic Dicarbene Embedded Sn₂P₂ Cluster and Reversible CO₂ Uptake

Abstract

Decarbonylation of a cyclic bis‐phosphaethynolatostannylene [(ADC)Sn(PCO)]₂ based on an anionic dicarbene framework (ADC = PhC{N(Dipp)C}₂; Dipp = 2,6‐iPr₂C₆H₃) under UV light results in the formation of a Sn₂P₂ cluster compound [(ADC)SnP]₂ as a green crystalline solid. The electronic structure of [(ADC)SnP]₂ is analyzed by quantum‐chemical calculations. At room temperature, [(ADC)SnP]₂ reversibly binds with CO₂ and forms [(ADC)₂{SnOC(O)P}SnP]. [(ADC)SnP]₂ enables catalytic hydroboration of CO₂ and reacts with elemental selenium and Fe₂(CO)₉ to afford [(ADC)₂{Sn(Se)P₂}SnSe] and [(ADC)Sn{Fe(CO)₄}P]₂, respectively. All compounds are characterized by multinuclear NMR spectroscopy and their solid‐state molecular structures are determined by single‐crystal X‐ray diffraction.