posted on 2024-02-07, 15:45authored byAndrew Fox, Liam T. Ball
The scope and practical utility of bismuth(V)-mediated
electrophilic
arylation have been greatly improved by the recent development of
user-friendly protocols based on modular bismacycle reagents. Here,
we report the scalable synthesis of a new bench-stable bismacycle
bromide and demonstrate that it can be used as a “universal
precursor” in electrophilic arylation. Relative to established
syntheses of related bismacycles, the new protocol benefits from improved
step- and vessel-economy, reduced production time, and the complete
elimination of cryogenic temperatures and undesirable solvents (Et2O and CH2Cl2). The synthesis is complemented
by a robust, chromatography-free purification procedure that was developed
by using design of experiments. We show that this process is highly
reproducible at the 100 mmol scale, with two independent experiments
giving 61 and 62% yields of isolated material. We anticipate that
this efficient method for the synthesis of a new bismacycle precursor
will expedite both (a) wider uptake of existing bismuth-mediated arylation
methods by the synthetic community and (b) ongoing efforts to develop
new bismuth-mediated transformations.