Lv Ze-Jie, Eisenlohr Kim A, Naumann Robert, Reuter Thomas, Verplancke Hendrik, Demeshko Serhiy, Herbst-Irmer Regine, Heinze Katja, Holthausen Max C, Schneider Sven
Institut für Anorganische Chemie and International Center for Advanced Studies of Energy Conversion (ICASEC), Universität Göttingen, Göttingen, Germany.
Institut für Anorganische und Analytische Chemie, Goethe-Universität, Frankfurt am Main, Germany.
Nat Chem. 2024 Nov;16(11):1788-1793. doi: 10.1038/s41557-024-01597-8. Epub 2024 Aug 5.
The extraordinary advances in carbene (R-C-R) chemistry have been fuelled by strategies to stabilize the electronic singlet state via π interactions. In contrast, the lack of similarly efficient approaches to obtain authentic triplet carbenes with appreciable lifetimes beyond cryogenic temperatures hampers their exploitation in synthesis and catalysis. Transition-metal substitution represents a potential strategy, but metallocarbenes (M-C-R) usually represent high-lying excited electronic configurations of the well-established carbyne complexes (M≡C-R). Here we report the synthesis and characterization of triplet metallocarbenes (M-C-SiMe, M = Pd, Pt) that are persistent beyond cryogenic conditions, and their selective reactivity towards carbene C-H insertion and carbonylation. Bond analysis reveals significant stabilization by spin-polarized push-pull interactions along both π-bonding planes, which fundamentally differs from bonding in push-pull singlet carbenes. This bonding model, thus, expands key strategies for stabilizing the open-shell carbene electromers and closes a conceptual gap towards carbyne complexes.
卡宾(R-C-R)化学领域的非凡进展得益于通过π相互作用稳定电子单重态的策略。相比之下,缺乏类似有效的方法来获得在低温以上具有可观寿命的真正三重态卡宾,这阻碍了它们在合成和催化中的应用。过渡金属取代是一种潜在策略,但金属卡宾(M-C-R)通常代表已确立的卡拜配合物(M≡C-R)的高能激发电子构型。在此,我们报告了在低温条件以外仍具有持久性的三重态金属卡宾(M-C-SiMe,M = Pd,Pt)的合成与表征,以及它们对卡宾C-H插入和羰基化反应的选择性反应活性。键分析表明,沿着两个π键合平面通过自旋极化推拉相互作用实现了显著的稳定化,这与推拉单重态卡宾中的键合有根本区别。因此,这种键合模型扩展了稳定开壳卡宾异构体的关键策略,并弥合了与卡拜配合物之间的概念差距。
