115107-83-0

Upstream product

• 628-20-6 4-Chlorobutyronitrile 
• 14468-90-7 N-trimethylsilyl-pyrrolidin-2-one 
• 28987-79-3 m-tolylmagnesium bromide 
• 99-04-7 m-Toluic acid 
• 120-33-2 ethyl 3-methylbenzoate 
• 591-17-3 meta-bromotoluene 

Downstream Products

• 72216-05-8 (+)-2-(3-Me-phenyl)-1-pyrrolidine 
• 72216-05-8 (-)-2-(3-Me-phenyl)-1-pyrrolidine 
• 1315512-52-7 C₁₆H₂₃NO₂ 
• 72216-05-8 (R)-2-(m-tolyl)pyrrolidine 
• 72216-05-8 (+)-2-(m-tolyl)pyrrolidine 
• 72216-05-8 2-(3-methylphenyl)pyrrolidine 

Relevant academic research and scientific papers

Iridium-catalyzed enantioselective hydrogenation of cyclic imines

A catalytic complex made from [Ir(COD)Cl]2 [di-μ-chloro- bis(1,5-cyclooctadiene)diiridium(I)] precursor and (S,S)-f-Binaphane ((R,R)-1,1′-bis{(R)-4,5-dihydro-3H-dinaphtho[1,2-c:2′,1′-e] phosphepino}ferrocene) ligand effectively catalyzed the en

Iron-Catalyzed Ring Expansion of Cyclobutanols for the Synthesis of 1-Pyrrolines by Using MsONH3OTf

The synthesis of 1-pyrrolines from cyclobutanol derivatives and an aminating reagent (MsONH3OTf) has been developed. This one-pot procedure achieves C–N bond/C═N bond formation via ring expansion. A series of 1-pyrroline derivatives are synthes

Intramolecular Csp3-H/C-C bond amination of alkyl azides for the selective synthesis of cyclic imines and tertiary amines

The intramolecular Csp3-H and/or C-C bond amination is very important in modern organic synthesis due to its efficiency in the construction of diversified N-heterocycles. Herein, we report a novel intramolecular cyclization of alkyl azides for the synthesis of cyclic imines and tertiary amines through selective Csp3-H and/or C-C bond cleavage. Two C-N single bonds or a CN double bond are efficiently constructed in these transformations. The carbocation mechanism differs from the reported metal nitrene intermediates and therefore enables metal-free and new transformation.

Design, synthesis and biological evaluation of aminobenzyloxyarylamide derivatives as selective κ opioid receptor antagonists

Opioid receptors play an important role in both behavioral and mood functions. Based on the structural modification of LY2456302, a series of aminobenzyloxyarylamide derivatives were designed and synthesized as κ opioid receptor antagonists. The κ opioid receptor binding ability of these compounds were evaluated with opioid receptors binding assays. Compounds 1a-d showed high affinity for κ opioid receptor. Especially for compound 1c, exhibited a significant Kivalue of 15.7?nM for κ opioid receptor binding and a higher selectivity over μ and δ opioid receptors compared to (±)LY2456302. In addition, compound 1c also showed potent κ antagonist activity with κ IC50?=?9.32?nM in [35S]GTP-γ-S functional assay. The potential use of the representative compounds as antidepressants was also investigated. The most potent compound 1c not only exhibited potent antidepressant activity in the mice forced swimming test, but also displayed the effect of anti-anxiety in the elevated plus-maze test.

Highly effective asymmetric hydrogenation of cyclic N -alkyl imines with chiral cationic Ru-MsDPEN catalysts

A range of cyclic N-alkyl imines were efficiently hydrogenated by using a chiral cationic Ru(η6-cymene)(MsDPEN)(BArF) complex (MsDPEN = N-(methanesulfonyl)-1,2-diphenylethylenediamine) in high yields and up to 98% ee. A one-pot synthesis of chiral 2-phenylpyrrolidine via reductive amination was also developed.