Floriane Doche, Thibault Gallavardin, Thomas Poisson, Tatiana Besset
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引用次数: 0
摘要
利用前所未有的、易于制备的、稳定的肟醚作为双功能试剂,通过形成相应的烷氧基和亚胺基自由基,发展了硫代蒽酮催化的2,2,2-三氟乙氧基胺化烯烃。为了绕过可能的副反应(1,2-氢原子转移(HAT), h -抽离和β-裂解),烷氧基自由基的高反应性被微调以促进C - OCH2CF3键的选择性和挑战性形成。该反应涉及三重态能量转移过程,使用双功能肟醚试剂,允许伴随形成C - N和C - OAlk键,迄今为止尚未绘制。因此,大量富电子烯烃的双官能团化选择性地提供了具有较大官能团耐受性的反马尔可夫尼科夫产物(44个例子,产率高达77%),与现有的2,2,2-三氟乙醇烯烃双官能团化方法相比,提供了直接和互补的区域选择性。后功能化反应和机理研究为这种转化的反应机制提供了关键的见解。
Energy Transfer Catalysis Enabled 2,2,2-Trifluoroethoxy-Amination of Olefins
A thioxanthone-catalyzed 2,2,2-trifluoroethoxyamination of olefins is developed via the formation of the corresponding alkoxy and iminyl radicals using unprecedented, easily prepared, and bench-stable oxime ethers as bifunctional reagents. To bypass possible side reactions (1,2-Hydrogen Atom Transfer (HAT), H-abstraction, and β-scission), the high reactivity of the alkoxy radical is fine-tuned to promote the selective and challenging formation of a COCH2CF3 bond. This reaction, involving a triplet energy transfer process, allows the concomitant formation of a CN and COAlk bond, so far uncharted, using bifunctional oxime ether reagents. Hence, the difunctionalization of a myriad of electron-rich alkenes selectively afforded the anti-Markovnikov products with a large functional group tolerance (44 examples, up to 77% yield), offering a straightforward and complementary regioselectivity compared to the existing approaches for the difunctionalization of alkenes with 2,2,2-trifluoroethanol. Post-functionalization reactions and mechanistic investigations provided key insights into the reaction mechanism of this transformation.
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