1414852-71-3Relevant academic research and scientific papers
Suzuki coupling of aroyl-MIDA boronate esters – A preliminary report on scope and limitations
Lai, Samson,Lin, Wen Xuan,Perrin, David M.,Takaesu, Noah
, (2021)
Recent methodological reports for synthesizing acyl-MIDA boronate esters compel an investigation of their potential use as substrates in a standard Suzuki-Miyaura cross-coupling reaction. Here we report the production of benzophenones by C[sbnd]C cross coupling between a benzoyl-MIDA boronate ester and a multitude of aryl bromide substrates in adequate yields following optimization under ambient conditions outside of a glove box. Under these standard conditions, none of several acyl-MIDA boronate esters (in an alkyl series) serves as a competent coupling partner. The substrate scope is also limited by the finding that the corresponding trifluoroborates of both acyl- and aroyltrifluroborates are not suitable substrates. For reasons of availability and synthetic difficulty in procuring other aroyl-MIDA boronates, this preliminary study examines the reactivity of benzoyl-MIDA boronate with several aryl bromide substrates.
Oxidative geminal functionalization of organoboron compounds
He, Zhi,Trinchera, Piera,Adachi, Shinya,St. Denis, Jeffrey D.,Yudin, Andrei K.
supporting information, p. 11092 - 11096 (2013/01/15)
Excellent tolerance: Stable acylboronates equipped with N-methyliminodiacetyl (MIDA) boryl groups ([B]) were prepared by using a sequence of oxidative manipulations at the boron-bound carbon center (green in scheme). Chemoselective transformations of these acylated organoboron building blocks yielded a range of multifunctionalized boron derivatives and supplied access to valuable borylated heterocycles (see scheme). Copyright
