77198-90-4Relevant academic research and scientific papers
Diprotonative stabilization of ring-opened carbocationic intermediates: conversion of tetrahydroisoquinoline to triarylmethanes
Kurouchi, Hiroaki
, p. 8313 - 8316 (2020/08/17)
Superacid-promoted conversion of tetrahydroisoquinolines to triarylmethanes via tandem reactions of C-N bond scission, Friedel-Crafts alkylation, C-O bond scission, and electrophilic aromatic amidation was developed. Dication formation was important for stabilizing the ring-opened carbocationic intermediate, which is a new role for diprotonation in reaction mechanisms. This journal is
Latent Bronsted Base Solvent-Assisted Amide Formation from Amines and Acid Chlorides
Otsuka, Rikuto,Maruhashi, Kazuo,Ohwada, Tomohiko
supporting information, p. 2041 - 2057 (2018/05/04)
Weakly basic amines, including even neutral amines such as nitroaniline and aminocarboxylic acids, react with acid chlorides very efficiently in N, N -dimethylacetamide (DMAC), without addition of a base, to give the corresponding amides in high yields. The role of DMAC and related solvents as latent Bronsted bases was studied in these amidation reactions. Less basic amines, such as aromatic amines, reacted with benzoyl chloride faster than more basic aliphatic amines.
The mechanism of the Bischler-Napieralski Reaction
Nagubandi, Sreeramulu,Fodor, G.
, p. 1457 - 1463 (2007/10/02)
The Bischler-Napieralski dihydroisoquinoline synthesis was proven to occur via imidoyl chlorides and the corresponding nitrilium salt.Two-step process required much milder conditions (20 degC - 50 degC) compared to drastic classical conditions of refluxing at 100 degC - 200 degC.The Bischler-Napieralski reaction is shown to share a common intermediate with two other well-known reactions: the von Braun and the Ritter reactions
Reversal of the Ritter Reaction as Observed Under Electron Impact Conditions
Nagubandi, Sreeramulu
, p. 535 - 538 (2007/10/02)
Fragmentations of various 2-phenethylamides, trifluoroacylimidates and imidoyl triflouromethyl sulfonates have been studied and a pathway for the formation of retro-Ritter reaction products is proposed.
