Hooker Leidy V, Bandar Jeffrey S
Department of Chemistry, Colorado State University, Fort Collins, CO, 80523, USA.
Angew Chem Int Ed Engl. 2025 May;64(21):e202502894. doi: 10.1002/anie.202502894. Epub 2025 Apr 14.
We describe how the merger of deprotonation, halogenation, and substitution into compatible processes enables the productive functionalization of traditionally unstable carbanionic intermediates. This strategy enables the first oxidative coupling protocol of α,α-difluorobenzylic C─H bonds with heteronucleophiles. Here, transiently generated α,α-difluorobenzylic carbanionic intermediates undergo halogen transfer from 2-bromothiophenes to form electrophilic ArCFBr compounds for in situ nucleophilic substitution, thereby avoiding α-fluoride elimination pathways that typically plague α-fluorocarbanions. This method streamlines the modular synthesis of α,α-difluorobenzyl(thio)ethers and led to the broader realization that halogen transfer to unstable carbanions is an enabling principle across diverse C(sp)─H and C(sp)─H systems.
我们描述了如何将去质子化、卤化和取代合并为兼容的过程,从而实现对传统上不稳定的碳负离子中间体进行有效的官能团化。该策略实现了首例α,α-二氟苄基C─H键与异亲核试剂的氧化偶联反应。在此过程中,瞬时生成的α,α-二氟苄基碳负离子中间体经历从2-溴噻吩的卤素转移,形成亲电的ArCFBr化合物用于原位亲核取代,从而避免了通常困扰α-氟代碳负离子的α-氟消除途径。该方法简化了α,α-二氟苄基(硫)醚的模块化合成,并使人们更广泛地认识到,向不稳定碳负离子的卤素转移是贯穿各种C(sp)─H和C(sp)─H体系的一个有效原则。
