Alkoxydiaminophosphine Ligands as Surrogates of NHCs in Copper Catalysis
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Abstract
A family of phosphine ligands containing a five‐membered ring similar to the popular N‐heterocyclic carbene ligands and an alkoxy third substituent has been developed. These alkoxydiaminophosphine ligands (ADAP) can be generated in one pot and reacted with a copper(I) source leading to the high yield isolation of complexes [(ADAP)CuX]2 (X=Cl, Br). The dinuclear nature of these compounds has been established by means of X‐ray studies and DOSY experiments. A screening of the catalytic properties of these complexes toward carbene‐transfer reactions from diazocompounds to C−H bonds (alkane, arene), olefins or N−H bonds, as well as in CuAAC or nitrene transfer reactions have shown a performance at least similar, if not better, than their (NHC)CuCl analogues, opening a new window in copper catalysis with these readily tunable ADAP ligands.
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Pizarro, J. D., Molina, F., Fructos, M. R., & Pérez, P. J. (2020). Alkoxydiaminophosphine Ligands as Surrogates of NHCs in Copper Catalysis. Chemistry – A European Journal, 26(45), 10330–10335. https://doi.org/10.1002/chem.202001517















