182552-87-0Relevant academic research and scientific papers
Diphenyliodonium Ion/Et3N Promoted Csp2-H Radical Phosphorylation of Enamides
Pal, Suman,Gaumont, Annie-Claude,Lakhdar, Sami,Gillaizeau, Isabelle
supporting information, p. 5621 - 5625 (2019/08/01)
This work reports a simple and efficient method for the direct phosphorylation of enamide under metal-free conditions. The P-centered radicals, derived from secondary phosphine oxides, are generated under mild reaction conditions in the presence of diphenyliodonium salt and Et3N and are introduced onto a range of enamides in good isolated yields. The method features broad substrate scope, good functional group tolerance, and efficient scale-up.
Synthesis of condensed tetrahydroisoquinoline class of alkaloids by employing TfOH-mediated imide carbonyl activation
Selvakumar, Jayaraman,Rao, Ramana Sreenivasa,Srinivasapriyan, Vijayan,Marutheeswaran, Srinivasan,Ramanathan, Chinnasamy Ramaraj
supporting information, p. 2175 - 2188 (2015/04/14)
Isoquinoline-based polycyclic lactams such as isoindoloisoquinolinones, pyrroloisoquinolinones, and benzo[a]quinolizinones were successfully assembled from the corresponding imides by using a TfOH-mediated (TfOH = trifluoromethanesulfonic acid) imide carbonyl activation and cyclization strategy. By employing this simple method, the isoquinoline alkaloids crispine A, trolline/oleracein E, and erythrinarbine were successfully synthesized in racemic form. The reaction of unsymmetrical N-phenethylphthalimides with TfOH displayed excellent regioselectivity, which was rationalized by DFT calculations.
Metalation vs Nucleophilic Addition in the Reactions of N-Phenethylimides with Organolithium Reagents. Ready Access to Isoquinoline Derivatives via N-Acyliminium Ions and Parham-Type Cyclizations
Collado, M. Isabel,Manteca, Izaskun,Sotomayor, Nuria,Villa, María-Jesús,Lete, Esther
, p. 2080 - 2092 (2007/10/03)
Sequential carbophilic addition of organolithium reagents and N-acyliminium ion cyclization of N-phenethylimides 1 affords the substituted isoquinolones 3 in high yields, with the possibility of varying the substituent at the C-1 position of the isoquinoline ring by changing the organolithium reagent. Ready access to the isoquinoline nucleus via Parham-type cyclization of imides 2 is also described. We have shown that iodinated imides 2 tolerate the metal-halogen exchange in the presence of the imide group, and the intramolecular cyclization of the so-obtained aromatic organometallic derivatives leads to the corresponding enamides 4. Both approaches have allowed the efficient preparation of various types of the isoquinoline class of alkaloids, just by changing the substitution pattern on the readily available starting imides. Thus, we have developed convenient alternative routes for the synthesis of benzo[a]quinolizidones and their 2-oxa analogs, isoindoloisoquinolones, dibenzo[a,h]quinolizidones, and thiazolo- and oxazolo[4,3-a]isoquinolones.
Parham-type cyclization and nucleophilic addition-N-acyliminium ion cyclization sequences for the construction of the isoquinoline nucleus
Collado, M. Isabel,Sotomayor, Nuria,Villa, Maria-Jesus,Lete, Esther
, p. 6193 - 6196 (2007/10/03)
Efficient methodologies based on the nucleophilic addition-N-acyliminium ion cyclization and the Parham-type cyclization sequences of N-phenethylimides 1 and 2 are reported for the synthesis of a dibenzo[a,h]quinolizidones, thiazolo-, oxazolo-, and imidazolo[4,3-a]isoquinolones.
