38111-44-3Relevant articles and documents
Ultrasound assisted nitratobis(triphenyl phosphine) copper(I) catalyzed conjugate addition of alkyl or aryl bromides to α,β-unsaturated cyanoester
Pise, Ashok S.,Burungale, Arvind S.,Devkate, Santosh S.,Gawade, Ramesh B.,Jadhav, Sunil D.
, p. 348 - 352 (2019)
The α,β-unsaturated cyanoester was obtained from p-methoxy benzaldehyde and ethyl cyano acetate by reported method. The conjugated addition products were synthesized from alkyl or aryl bromides and α,β-unsaturated cyanoester in the presence of 10 mol % Cu(I) catalyst in high yields within 17-21 min under ultrasound irradiation.
Fukuyama Cross-Coupling Approach to Isoprekinamycin: Discovery of the Highly Active and Bench-Stable Palladium Precatalyst POxAP
Tang, Shuang-Qi,Bricard, Jacques,Schmitt, Martine,Bihel, Frédéric
supporting information, p. 844 - 848 (2019/01/30)
An efficient and user-friendly palladium(II) precatalyst, POxAP (post-oxidative-addition precatalyst), was identified for use in Fukuyama cross-coupling reactions. Suitable for storage under air, the POxAP precatalyst allowed reaction between thioesters and organozinc reagents with turnover numbers of ~90000. A series of 23 ketones were obtained with yields ranging from 53 to 99%. As proof of efficacy, an alternative approach was developed for the synthesis of a key precursor of the natural product isoprekinamycin.
Mechanochemical Activation of Zinc and Application to Negishi Cross-Coupling
Cao, Qun,Howard, Joseph L.,Wheatley, Emilie,Browne, Duncan L.
supporting information, p. 11339 - 11343 (2018/08/28)
A form independent activation of zinc, concomitant generation of organozinc species and engagement in a Negishi cross-coupling reaction via mechanochemical methods is reported. The reported method exhibits a broad substrate scope for both C(sp3)–C(sp2) and C(sp2)–C(sp2) couplings and is tolerant to many important functional groups. The method may offer broad reaching opportunities for the in situ generation organometallic compounds from base metals and their concomitant engagement in synthetic reactions via mechanochemical methods.