An Aluminum Telluride with a Terminal Al=Te Bond and its Conversion to an Aluminum Tellurocarbonate by CO<sub>2</sub> Reduction
Huihui Xu, Arseni Kostenko, Catherine Weetman, Shiori Fujimori, Shigeyoshi Inoue
Abstract
Abstract Facile access to dimeric heavier aluminum chalcogenides [(NHC)Al(Tipp)‐μ‐Ch] 2 (NHC=I i Pr (1,3‐diisopropyl‐4,5‐dimethylimidazol‐2‐ylidene, IMe 4 (1,3,4,5‐tetramethylimidazol‐2‐ylidene); Tipp=2,4,6‐ i Pr 3 C 6 H 2 ; Ch=Se, Te) by treatment of NHC‐stabilized aluminum dihydrides with elemental Se and Te is reported. The higher affinity of IMe 4 in comparison with I i Pr toward the Al center in [(NHC)Al(Tipp)‐μ‐Ch] 2 can be used for ligand exchange. Additionally, the presence of excess IMe 4 allows for cleavage of the dimers to form a rare example of a neutral multiply bonded heavier aluminum chalcogenide in the form of a tetracoordinate aluminum complex, (IMe 4 ) 2 (Tipp)Al=Te. This species reacts with three equivalents of CO 2 across two Al−C NHC and the Al=Te bond affording a pentacoordinate aluminum complex containing a dianionic tellurocarbonate ligand [CO 2 Te] 2− , which is the first example of tellurium analogue of a carbonate [CO 3 ] 2− .