19342-01-9

Basic information

• Product Name: (R)-(+)-N,N-DIMETHYL-1-PHENYLETHYLAMINE
• Synonyms: (R)(+)-N N-DIMETHYL-ALPHA-PHENETHYLAMINE;(R)-(+)-N,N-DIMETHYL-1-PHENETHYLAMINE;(R)-(+)-N,N-DIMETHYL-1-PHENYLETHYLAMINE;(R)-(+)-ALPHA-METHYL-N,N-DIMETHYLBENZYLAMINE;(R)-(+)-ALPHA-N,N-TRIMETHYLBENZYLAMINE;ALPHA,N,N-TRIMETHYLBENZYLAMINE;(R)-N,N,alpha-trimethylbenzylamine;(R)-(+)-N,N-DIMETHYL-1-PHENETHYLAMINE, 9 7%
• CAS NO: 19342-01-9
• Molecular Formula: C₁₀H₁₅N
• Molecular Weight: 149.23
• EINECS: 242-976-2
• Mol File: 19342-01-9.mol
• Article Data: 54

Chemical Properties

• Melting Point: 143°C (estimate)
• Boiling Point: 81 °C16 mm Hg(lit.)
• Flash Point: 148 °F
• Appearance: clear colorless liquid
• Density: 0.908 g/mL at 25 °C(lit.)
• Refractive Index: n20/D 1.503(lit.)
• Storage Temp.: Refrigerator (+4°C)
• PKA: 8.88±0.50(Predicted)
• BRN: 3030178
• CAS DataBase Reference: (R)-(+)-N,N-DIMETHYL-1-PHENYLETHYLAMINE(CAS DataBase Reference)
• NIST Chemistry Reference: (R)-(+)-N,N-DIMETHYL-1-PHENYLETHYLAMINE(19342-01-9)
• EPA Substance Registry System: (R)-(+)-N,N-DIMETHYL-1-PHENYLETHYLAMINE(19342-01-9)

Safety Data

• Hazard Codes: Xi
• Statements: 36/37/38
• Safety Statements: 26-36
• WGK Germany: 3
• F: 8-10-23
• Hazardous Substances Data: 19342-01-9(Hazardous Substances Data)

Usage

Description

(R)-(+)-N,N-DIMETHYL-1-PHENYLETHYLAMINE, also known as (R)-Norephedrine, is a chiral primary amine with a clear colorless to yellow liquid appearance and a sweet fishy aroma. It is an enantiomer of N,N-dimethylphenethylamine, which is an organic compound commonly used in the synthesis of various pharmaceuticals and chemicals.

Uses

Used in Pharmaceutical Industry:
(R)-(+)-N,N-DIMETHYL-1-PHENYLETHYLAMINE is used as an intermediate in the synthesis of various pharmaceuticals for [application reason]. Its chiral nature makes it a valuable component in the development of enantiomerically pure drugs, which can have different biological activities and reduce potential side effects.
Used in Chemical Industry:
(R)-(+)-N,N-DIMETHYL-1-PHENYLETHYLAMINE is used as a building block in the chemical industry for [application reason]. Its unique chemical properties allow it to be used in the production of various compounds, such as dyes, pigments, and other specialty chemicals.
Used in Research and Development:
(R)-(+)-N,N-DIMETHYL-1-PHENYLETHYLAMINE is used as a research compound for [application reason]. Its availability as a pure enantiomer makes it an essential tool for studying the effects of chirality on biological activity and developing new drugs with improved efficacy and safety profiles.
Please note that the specific application reasons for each industry are not provided in the materials. The placeholders [application reason] should be replaced with the actual reasons for using (R)-(+)-N,N-DIMETHYL-1-PHENYLETHYLAMINE in each industry.

Upstream product

• 917-64-6 methyl magnesium iodide 
• 60-29-7 diethyl ether 
• 827-36-1 2-(N,N-dimethylamino)-2-phenylacetonitrile 
• 50-00-0 formaldehyd 
• 618-36-0 rac-methylbenzylamine 
• 5350-67-4 α-(dimethylamino)-propionitrile 
• 5350-41-4 trimethylbenzylammonium bromide 
• 591-51-5 phenyllithium 
• 585-71-7 (1-bromoethyl)benzne 
• 124-40-3 dimethyl amine 
• 98-86-2 acetophenone 
• 68-12-2 N,N-dimethyl-formamide 
• 77-78-1 dimethyl sulfate 
• 13437-79-1 (α)-methylbenzylamine hydrochloride 

Downstream Products

• 57473-79-7 benzoic acid (S)-1-phenylethyl ester 
• 42142-07-4 dimethyl-(1-phenyl-ethyl)-amine oxide 
• 1445-91-6 (S)-1-phenylethanol 
• 53759-17-4 α-methylbenzyl trimethyl ammonium iodide 
• 96990-21-5 Hexadecyl-dimethyl-(1-phenyl-ethyl)-ammonium; bromide 
• 50640-92-1 (R)-(+)-N-α-methylbenzyl-NN-dimethylhexadecylammonium bromide 
• 36043-87-5 N,N,N-trimethyl-1-phenylethan-1-aminium bromide 
• 122571-79-3 α-methyl-N,N-dimethyl-2-hydroxymethylbenzylamine 
• 91531-32-7 (R)-2-(1-Dimethylamino-ethyl)-thioanisol 
• 106997-30-2 R-dibutphos*HCl 
• 143463-34-7 [(R)-1-(2-Cyclohexylsulfanyl-phenyl)-ethyl]-dimethyl-amine 
• 64234-71-5 lithium(N,N,α-trimethyl-benzylamine) 
• 63072-89-9 (R)-N,N-dimethylaminomethyl-α-methyl-2-phenyllithium 
• 124188-38-1 benzyldimethyl-1-phenylethylammonium bromide 

Relevant articles and documents

Pd(II)-Mediated C?H Activation for Cysteine Bioconjugation

Selective bioconjugation remains a significant challenge for the synthetic chemist due to the stringent reaction conditions required by biomolecules coupled with their high degree of functionality. The current trailblazer of transition-metal mediated bioconjugation chemistry involves the use of Pd(II) complexes prepared via an oxidative addition process. Herein, the preparation of Pd(II) complexes for cysteine bioconjugation via a facile C?H activation process is reported. These complexes show bioconjugation efficiency competitive with what is seen in the current literature, with a user-friendly synthesis, common Pd(II) sources, and a more cost-effective ligand. Furthermore, these complexes need not be isolated, and still achieve high conversion efficiency and selectivity of a model peptide. These complexes also demonstrate the ability to selectively arylate a single surface cysteine residue on a model protein substrate, further demonstrating their utility.

Remarkably Efficient Iridium Catalysts for Directed C(sp2)-H and C(sp3)-H Borylation of Diverse Classes of Substrates

Here we describe the discovery of a new class of C-H borylation catalysts and their use for regioselective C-H borylation of aromatic, heteroaromatic, and aliphatic systems. The new catalysts have Ir-C(thienyl) or Ir-C(furyl) anionic ligands instead of the diamine-type neutral chelating ligands used in the standard C-H borylation conditions. It is reported that the employment of these newly discovered catalysts show excellent reactivity and ortho-selectivity for diverse classes of aromatic substrates with high isolated yields. Moreover, the catalysts proved to be efficient for a wide number of aliphatic substrates for selective C(sp3)-H bond borylations. Heterocyclic molecules are selectively borylated using the inherently elevated reactivity of the C-H bonds. A number of late-stage C-H functionalization have been described using the same catalysts. Furthermore, we show that one of the catalysts could be used even in open air for the C(sp2)-H and C(sp3)-H borylations enabling the method more general. Preliminary mechanistic studies suggest that the active catalytic intermediate is the Ir(bis)boryl complex, and the attached ligand acts as bidentate ligand. Collectively, this study underlines the discovery of new class of C-H borylation catalysts that should find wide application in the context of C-H functionalization chemistry.

Preparation method of N-alkylated derivative of primary amine compound

The invention relates to a preparation method of an N-alkylated derivative of a primary amine compound. The method comprises the following steps: uniformly mixing a primary amine compound, an alcohol compound and a catalyst in a reactor, and heating to react for a period of time to generate an N-alkylated substituted tertiary amine compound; wherein the catalyst is a copper-cobalt bimetallic catalyst, and the carrier of the catalyst is Al2O3. According to the method, alcohol is adopted as an alkylating reagent and is low in price and easy to obtain, a byproduct is water, no pollution is caused to the environment, and the overall reaction atom economy is high; the catalyst is simple in preparation method, low in cost, high in reaction activity and good in structural stability; meanwhile, by using the copper-cobalt bimetallic catalyst, the use of strong base additives can be avoided, and the requirement on reaction equipment is low; and the reaction post-treatment is convenient, and the catalyst can be recycled and is environment-friendly.