Overcoming Limitations in Decarboxylative Arylation via Ag-Ni Electrocatalysis.
Maximilian D PalkowitzGabriele LaudadioSimon KolbJin ChoiMartins S OderindeTamara El-Hayek EwingPhilippe N BolducTeYu ChenHao ZhangPeter T W ChengBenxiang ZhangMichael D MandlerVanna D BlasczakJeremy M RichterMichael R CollinsRyan L SchioldagerMartin BravoT G Murali DharBenjamin VokitsYeheng ZhuPierre-Georges EcheverriaMichael A PossScott A ShawSebastian ClementsonNadia Nasser PetersenPavel K MykhailiukPhil S BaranPublished in: Journal of the American Chemical Society (2022)
A useful protocol for achieving decarboxylative cross-coupling (DCC) of redox-active esters (RAE, isolated or generated in situ) and halo(hetero)arenes is reported. This pragmatically focused study employs a unique Ag-Ni electrocatalytic platform to overcome numerous limitations that have plagued this strategically powerful transformation. In its optimized form, coupling partners can be combined in a surprisingly simple way: open to the air, using technical-grade solvents, an inexpensive ligand and Ni source, and substoichiometric AgNO 3 , proceeding at room temperature with a simple commercial potentiostat. Most importantly, all of the results are placed into context by benchmarking with state-of-the-art methods. Applications are presented that simplify synthesis and rapidly enable access to challenging chemical space. Finally, adaptation to multiple scale regimes, ranging from parallel milligram-based synthesis to decagram recirculating flow is presented.