34757-14-7Relevant articles and documents
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Sohn,M.B. et al.
, p. 53 - 56 (1972)
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Enantioselective Palladium-Catalyzed Carbene Insertion into the N?H Bonds of Aromatic Heterocycles
Arredondo, Vanessa,Hiew, Stanley C.,Gutman, Eugene S.,Premachandra, Ilandari Dewage Udara Anulal,Van Vranken, David L.
supporting information, p. 4156 - 4159 (2017/04/03)
C3-substituted indoles and carbazoles react with α-aryl-α-diazoesters under palladium catalysis to form α-(N-indolyl)-α-arylesters and α-(N-carbazolyl)-α-arylesters. The products result from insertion of a palladium-carbene ligand into the N?H bond of the aromatic N-heterocycles. Enantioselection was achieved using a chiral bis(oxazoline) ligand, in many cases with high enantioselectivity (up to 99 % ee). The method was applied to synthesize the core of a bioactive carbazole derivative in a concise manner.
Asymmetric N-H Insertion of secondary and primary anilines under the catalysis of palladium and chiral guanidine derivatives
Zhu, Yin,Liu, Xiaohua,Dong, Shunxi,Zhou, Yuhang,Li, Wei,Lin, Lili,Feng, Xiaoming
supporting information, p. 1636 - 1640 (2014/03/21)
Efficient enantioselective N-H insertion reactions of secondary and primary anilines were catalyzed by palladium(0) in combination with chiral guanidine derivatives. A broad range of substituted anilines were tolerated, and the corresponding products were obtained in high yield (up to 99 %) with good enantioselectivity (up to 94 % ee) under mild reaction conditions. The N-H insertion mechanism was examined by the study of kinetic isotope effects, control experiments, HRMS, and spectroscopic analysis. Hidden talents: Chiral guanidine derivatives were developed as useful ligands for the enantioselective insertion of carbenoids into the N-H bonds of secondary and primary anilines in combination with palladium(0), which was not previously known to promote asymmetric N-H insertion (see scheme; dba=dibenzylideneacetone). The N-H insertion mechanism was examined by kinetic isotope studies, control experiments, HRMS, and spectroscopic analysis. Copyright