788123-23-9

Basic information

• Product Name: (S)‐4‐fluoro‐α‐methylphenethylamine
• Synonyms: (S)‐4‐fluoro‐α‐methylphenethylamine
• CAS NO: 788123-23-9
• Molecular Weight: 153.199
• Mol File: 788123-23-9.mol
• Article Data: 13

Chemical Properties

• CAS DataBase Reference: (S)‐4‐fluoro‐α‐methylphenethylamine(CAS DataBase Reference)
• NIST Chemistry Reference: (S)‐4‐fluoro‐α‐methylphenethylamine(788123-23-9)
• EPA Substance Registry System: (S)‐4‐fluoro‐α‐methylphenethylamine(788123-23-9)

Safety Data

• Hazardous Substances Data: 788123-23-9(Hazardous Substances Data)

Upstream product

• 64609-06-9 (R,S)-(+/-)-α-methyl-β-(4-fluorophenyl)ethylamine hydrochloride 
• 459-03-0 4-fluorophenyl acetone 
• 459-02-9 4-fluoroamphetamine 
• 127515-13-3 (S)-(+)-α-methyl-β-(4-fluorophenyl)ethylamine hydrochloride 
• 459-57-4 4-fluorobenzaldehyde 
• 134538-46-8 1-(4-fluorophenyl)-2-nitropropene 
• 3938-96-3 ethyl 2-methoxyacetate 
• 87227-77-8 bishydrochloride salt of cis-1,4-diamino-but-2-ene 

Downstream Products

• 127515-18-8 (S)-(+)-α-methyl-β-(4-fluorophenyl)-N-methyl-N-propynylethylamine 
• 127515-15-5 (S)-(+)-α-methyl-β-(4-fluorophenyl)-N-propynylethylamine 

Relevant articles and documents

Chiral amine synthesis using ω-transaminases: An amine donor that displaces equilibria and enables high-throughput screening

The widespread application of ω-transaminases as biocatalysts for chiral amine synthesis has been hampered by fundamental challenges, including unfavorable equilibrium positions and product inhibition. Herein, an efficient process that allows reactions to proceed in high conversion in the absence of by-product removal using only one equivalent of a diamine donor (ortho-xylylenediamine) is reported. This operationally simple method is compatible with the most widely used (R)- and (S)-selective ω-TAs and is particularly suitable for the conversion of substrates with unfavorable equilibrium positions (e.g., 1-indanone). Significantly, spontaneous polymerization of the isoindole by-product generates colored derivatives, providing a high-throughput screening platform to identify desired ω-TA activity. ω-Transaminases (ω-TA) have been employed as biocatalysts in a simple and efficient process for the synthesis of chiral amines. A dual-function diamine donor (ortho-xylylenediamine) serves to displace challenging reaction equilibria towards product formation whilst generating intensely colored by-products, which have allowed the development of liquid-phase and colony-based assays.

Successful use of a novel lux i-Amylose-1 chiral column for enantioseparation of “legal highs” by HPLC

Bath salts, fumigations, cleaners and air fresheners, behind these terms substances are hidden, which count as “Legal Highs”. These fancy names are used to pretend Legal Highs as harmless compounds, to circumvent legal regulations for marketing as well as to increase the sales. Besides classic illicit drugs of synthetic origin such as amphetamines, cocaine and MDMA, the trade of these compounds, also known as new psychoactive substances (NPS), is not uncommon today. In many countries, NPS are still not subject to drug control. Among them, there are stimulants such as new amphetamine derivatives or cathinones, which possess a chiral centre. Little is known about the fact that the two possible enantiomers may differ in their pharmacological effect. The aim of this study was to test a novel HPLC column for the enantioseparation of a set of 112 NPS coming from different chemical groups and collected by internet purchases during the years 2010–2018. The CSP, namely Lux 5?μm i-Amylose-1, LC Column 250 x 4.6?mm, was run in normal phase mode under isocratic conditions, UV detection was performed at 245?nm and 230?nm, injection volume was 10?μl and flow rate was 1?ml/min. With a mobile phase consisting of n-hexane/isopropanol/diethylamine (90:10:0.1), herein, 79 NPS were resolved into their enantiomers successfully, for 37 of them baseline resolution was achieved. After increase of lipophily of the mobile phase to 99:1:0.1, another 27 compounds were baseline separated. It was found that all separated NPS are traded as racemic compounds.

Enantiomeric separation of Novel Psychoactive Substances by capillary electrophoresis using (+)-18-crown-6-tetracarboxylic acid as chiral selector

In the recent years, hundreds of Novel Psychoactive Substances (NPS) have entered both the European and the global drug market. These drugs, which are mainly used for recreational matters, have caused serious social problems. Every year, the spectrum of these misused drugs is enlarged by new derivatives, which are produced by modifications of basic structures of already well-known substances. Additionally, a lot of them possess a stereogenic center which leads to 2 enantiomeric forms. The fact that the pharmacological effects and potencies of the enantiomers of these chiral NPS may differ can be assumed from a broad spectrum of active pharmaceutical ingredients. For this reason, analytical method development regarding enantiomeric separation for these classes of substances is of great pharmaceutical and medical interest. The aim of this work was to create an easy-to-prepare chiral capillary electrophoresis method for the enantioseparation of NPS which contains a primary amino group by means of (+)-18-crown-6-tetracarboxylic acid as chiral selector. Novel Psychoactive Substances were purchased at various Internet stores or represent samples seized by Austrian police. The effects of selector concentration, the electrolyte composition, and the addition of organic modifiers to the background electrolyte on enantioseparation were investigated. Under optimized conditions, the use of 20-mM (+)-18-crown-6-tetracarboxylic acid, 10-mM Tris, and 30-mM citric acid buffer at pH 2.10 turned out to be effective. Fifteen of 24 tested NPS were resolved in their enantiomers within 15?minutes. It was found that all NPS were traded as racemic mixtures.