66552-16-7Relevant academic research and scientific papers
Metal and Oxidant Free Construction of Substituted- and/or Polycyclic Indoles: A Useful Alternative to Bischler and Related Syntheses
De Crescentini, Lucia,Favi, Gianfranco,Mantellini, Fabio,Mari, Giacomo,Santeusanio, Stefania
supporting information, (2020/08/27)
A wide range of substituted indoles or polycyclic derivatives containing the indole core are easily accessible by acidic treatment of aromatic amines and 1,2-diaza-1,3-dienes. Unlike the related indole-Bischler synthesis, the regioselectivity of the method here reported is unique and predictable, the yields are generally good and also electron withdrawing substituted indoles are smoothly recovered.
Iridium catalyzed acceptor/acceptor carbene insertion into N-H bonds in water
Ramakrishna, Kankanala,Sivasankar, Chinnappan
supporting information, p. 2392 - 2396 (2017/03/20)
The chemistry of A and D/A carbenes (D and A are donor and acceptor groups, respectively) is known to a great extent in the literature. Nevertheless the chemistry of the A/A class of carbenes is less explored, although the A/A class of carbenes is more im
A transformation of N-alkylated anilines to N-aryloxamates
Zhu, Xiao-He,Zhang, Xin,Xin, Hong-Xing,Yan, Hong
, p. 1542 - 1547 (2013/09/02)
Transformation of N-alkylated anilines to N-aryloxamates was studied using ethyl 2-diazoacetoacetate as an alkylating agent and dirhodium tetraacetate (Rh2(OAc)4) as the catalyst. The general applicability of the reaction as a synthetic method for N-aryloxamates was studied with a number of substituted N-alkylated anilines. The results revealed that the oxamate was formed by a radical reaction with molecular O2 and Rh 2(OAc)4 as initiator. Copyright
