化学
表面改性
光化学
紧身衣
组合化学
碳硼烷
硼
激进的
离解(化学)
功能群
光催化
惰性
纳米技术
键离解能
密度泛函理论
氯
氯化氢
分子
氢键
氢原子
带隙
卤素
氯化物
作者
Hongyuan Ren,Ningning Zhou,Wenli Ma,Deshuang Tu,C. J. Lu,Hong Yan
摘要
The functionalization of B-H bonds in carboranes represents a significant goal in boron cluster chemistry, holding great potential for the construction of advanced functional materials and bioactive molecules. However, the inherent inertness of the B-H bond, characterized by a high bond dissociation energy (about 100 kcal/mol), presents a formidable challenge. Conventional strategies typically rely on transition-metal-mediated activation or prefunctionalization of the boron vertices, which may suffer from poor atom- and step-economy and frequently require harsh reaction conditions and noble catalysts. Herein, we report a photoinduced iron-catalyzed platform for the direct and redox-neutral B-H functionalization of carboranes via the merger of ligand-to-metal charge transfer (LMCT) and hydrogen atom transfer (HAT). This method leverages the LMCT excitation of commercially available and inexpensive iron(III) chloride to generate chlorine radicals under mild conditions, which subsequently mediate a B-H HAT process. This versatile protocol enables a diverse range of B-H derivatizations, including alkylation, hydrazination, thiolation, and heteroarylation. Its synthetic utility is demonstrated through scalable synthesis, facile post-modification of products, and the one-step construction of a carborane-based luminogen. Mechanistic studies provide evidence for the formation of a boron-centered carboranyl radical and a chlorine radical, corroborating the proposed synergistic LMCT/HAT pathway. This work establishes a new paradigm for the functionalization of inert B-H bonds, offering a practical strategy for the development of boron-cluster-based functional molecules.
科研通智能强力驱动
Strongly Powered by AbleSci AI