64175-53-7

Usage

Synthesis Reference(s)

Tetrahedron Letters, 22, p. 2487, 1981 DOI: 10.1016/S0040-4039(01)92940-5

InChI:InChI=1/C12H17N/c1-10-6-5-7-11(2)12(10)13-8-3-4-9-13/h5-7H,3-4,8-9H2,1-2H3

Upstream product

• 110-52-1 1,4-dibromo-butane 
• 87-62-7 2,6-dimethylaniline 
• 13750-57-7 1-(1-ethyl-1-propenyl)pyrrolidine 
• 79092-10-7 1,3-dimethoxy-1,3-dichloropropane 
• 123-75-1 pyrrolidine 
• 6781-98-2 2,6-dimethyl-1-chlorobenzene 
• 110-63-4 Butane-1,4-diol 
• 109-99-9 tetrahydrofuran 
• 769-23-3 N-ethyl-2,6-dimethylphenylamine 

Relevant academic research and scientific papers

Practical direct synthesis of: N -aryl-substituted azacycles from N -alkyl protected arylamines using TiCl4and DBU

A novel transformation of N-alkyl protected arylamines and cyclic ethers into N-aryl substituted azacycles is described. Alkyl groups have been used for the protection of amines in organic syntheses. In this synthesis, N-alkyl protected arylamines were reacted with cyclic ethers in the presence of TiCl4 and DBU, crucial reagents affording five- and six-membered azacycles. In particular, utilization of the novel TiCl4/DBU-mediated reaction allows various N-alkyl protected arylamines such as N-methyl-, N-ethyl-, N-isopropyl, and N-tert-butyl arylamines to be readily converted into N-aryl substituted azacycles in high yields. This practical approach using various N-alkyl arylamines leads to the efficient preparation of azacycles.

C-H Functionalization of Amines via Alkene-Derived Nucleophiles through Cooperative Action of Chiral and Achiral Lewis Acid Catalysts: Applications in Enantioselective Synthesis

Catalytic transformations of α-amino C-H bonds to afford valuable enantiomerically enriched α-substituted amines, entities that are prevalent in pharmaceuticals and bioactive natural products, have been developed. Typically, such processes are carried out

Dehydrogenative Aromatization and Sulfonylation of Pyrrolidines: Orthogonal Reactivity in Photoredox Catalysis

Oxidative dehydrogenative aromatization and selective sulfonylation reactions of N-heterocycles under visible-light photoredox catalysis were established. The mild reaction conditions make this approach an appealing and versatile strategy to functionalize/oxidize pyrrolidines whereby arylsulfonyl chlorides were identified to be both catalyst regeneration and sulfonylation reagents.

METHOD FOR PRODUCING N-SUBSTITUTED AMINE COMPOUNDS THROUGH CATALYZED ALKYLATION

The invention relates to a method for producing a N-substituted amine compound by catalyzed alkylation. The method uses amine and alcohol or two kinds of amines as the reaction materials, employs composite metal oxides catalyst at a reaction temperature of 80-180° C. to catalyze the reaction for 6-36 hours, so as to produce the N-substituted amine compound. The reaction condition of the method of the invention is relatively moderate, using a catalyst made of cheap non-noble metals, which is non-caustic and easy to be separated and reused. The reaction does not need any medium and has relatively high conversion rate and selectivity.

Development of a general non-noble metal catalyst for the benign amination of alcohols with amines and ammonia

The N-alkylation of amines or ammonia with alcohols is a valuable route for the synthesis of N-alkyl amines. However, as a potentially clean and economic choice for N-alkyl amine synthesis, non-noble metal catalysts with high activity and good selectivity are rarely reported. Normally, they are severely limited due to low activity and poor generality. Herein, a simple NiCuFeOx catalyst was designed and prepared for the N-alkylation of ammonia or amines with alcohol or primary amines. N-alkyl amines with various structures were successfully synthesized in moderate to excellent yields in the absence of organic ligands and bases. Typically, primary amines could be efficiently transformed into secondary amines and N-heterocyclic compounds, and secondary amines could be N-alkylated to synthesize tertiary amines. Note that primary and secondary amines could be produced through a one-pot reaction of ammonia and alcohols. In addition to excellent catalytic performance, the catalyst itself possesses outstanding superiority, that is, it is air and moisture stable. Moreover, the magnetic property of this catalyst makes it easily separable from the reaction mixture and it could be recovered and reused for several runs without obvious deactivation. Copyright

Ortho, ortho′-Substituted KITPHOS monophosphines: Highly efficient ligands for palladium-catalyzed C-C and C-N bond formation

ortho, ortho′-Substitution of the phosphinoalkyne-derived aryl ring in KITPHOS (11-dicyclohexylphosphino-12-phenyl-9,10-ethenoanthracene) monophosphines enhances the performance of this class of ligand in palladium-catalyzed Suzuki-Miyaura cross-couplings and BuchwaldHartwig aminations, compared with their unsubstituted and mono-substituted counterparts. An alternative complementary synthesis of KITPHOS monophosphines has been developed and two new members of this family, 2,6-Me2-KITPHOS [11-dicyclohexylphosphino-12-(2,6-dimethylphenyl)-9,10-ethenoanthracene] and 2,6-(MeO)2-KITPHOS [11-dicyclohexylphosphino-12-(2,6-dimethoxyphenyl)-9,10-ethenoanthracene], have been prepared; palladium complexes of both are highly efficient catalysts for C - C and C - N bond formation with a range of electron-rich and electron-poor aromatic chlorides as well as heteroaryl chlorides.

Studies on nucleophilic substitution reactions with cyclopentadienyliron complexes of some chloroarenes and nitorarenes and syntheses of substituted arenes by demetallation of the substitution products

Nucleophilic substitution reactions with the cyclopentadienyliron (CpFe) complex of m- or p-dichlorobenzene with carbanion nucleophiles derived from ethyl acetoacetate (EAA), dibenzoylmethane (DBM) or diacetylmethane (DAM) were found to give only monosubstitution as previously observed for the CpFe complex of o-dichlorobenzene.Reaction of the CpFe complex of 2,6-dimethylchlorobenzene (XIVa) or 2,6-dimethylnitorbenzene (XIVb) with nucleophiles derived from ammonia, dimethylamine, n-butylamine, pyrrolidine, ethanol, phenol, o-thiocresol and EAA all gave SNAr products, without significant steric hindrance.However, no reaction was observed in the treatment of XIVa or XIVb with DBM, suggesting that only with a bulky nucleophile such as that derived from DBM were steric hindrance effects sufficiently large to prevent an SNAr reaction with XIVa or XIVb.Pyrolytic sublimation of the various SNAr products was found to cause decomposition in some cases, but in most instances, demetallation took place giving rise to substituted arenes.New substituted arenes prepared in this way in the present work included RC6H4CH(COC6H5)2, with R = p-CH3, o-Cl, m-Cl or p-Cl, and 2,6-(CH3)2C6H3Y, with Y = CH3(CH2)3NH, C2H5O or o-CH3C6H4S.

A ONE-STEP SYNTHESIS OF 2,6-DISUBSTITUTED ANILINES FROM ALIPHATIC COMPOUNDS

A one-step synthesis of 2,6-disubstituted anilines by reaction of enamines derived from acyclic ketones of type RCH2COCH2R' and 1,3-dichloro-1,3-dimethoxypropane is described.