91322-61-1Relevant articles and documents
Synergistic effect of a bis(proazaphosphatrane) in mild palladium-catalyzed direct α-arylations of nitriles with aryl chlorides
Han Kim, So,Jang, Wonseok,Kim, Min,Verkade, John G.,Kim, Youngjo
, p. 6025 - 6029 (2015/03/30)
The effect of a bis(proazaphosphatrane) ligand on the palladium-catalyzed direct α-arylation of nitriles with various aryl chlorides under mild conditions is reported. Comparisons of the catalytic properties of this ligand with those of three related mono(proazaphosphatrane)s under the same reaction conditions revealed that bis(proazaphosphatrane) displayed a synergistically enhanced activity. In the presence of the bis(proazaphosphatrane) ligand, ethyl cyanoacetate and primary as well as secondary nitriles were efficiently coupled with a wide variety of aryl chlorides that contained electron-rich, electron-poor, and electron-neutral groups.
An efficient and mild CuI/L-proline-catalyzed arylation of acetylacetone or ethyl cyanoacetate
Jiang, Yongwen,Wu, Nan,Wu, Haihong,He, Mingyuan
, p. 2731 - 2734 (2007/10/03)
The coupling reaction of aryl iodides with acetylacetone or ethyl cyanoacetate under catalysis of CuI/L-proline works at relatively mild conditions to provide 3-aryl-2, 4-pentanediones and α-aryl cyanoacetates in moderate to good yields. Georg Thieme Verlag Stuttgart.
Palladium-catalyzed arylation of malonates and cyanoesters using sterically hindered trialkyl- and ferrocenyldialkylphosphine ligands
Beare, Neil A.,Hartwig, John F.
, p. 541 - 555 (2007/10/03)
Palladium-catalyzed reactions of aryl bromides and chlorides with two common stabilized carbanions - enolates of dialkyl malonates and alkyl cyanoesters - are reported. An exploration of the scope of these reactions was conducted, and the processes were shown to occur in a general fashion. Using P(t-Bu)3 (1), the pentaphenylferrocenyl ligand (Ph5C5)Fe(C5H4)P(t-Bu) 2 (2), or the adamantyl ligand (1-Ad)P(t-Bu)2 (3), reactions of electron-poor and electron-rich, sterically hindered and unhindered aryl bromides and chlorides were shown to react with diethyl malonate, di-tertbutyl malonate, diethyl fluoromalonate, ethyl cyanoacetate, and ethyl phenylcyanoacetate. Although alkyl malonates and ethyl alkylcyanoacetates did not react with aryl halides using these catalysts, the same products were formed conveniently in one pot from diethylmalonate by cross-coupling of an aryl halide in the presence of excess base and subsequent alkylation.