Atomfair Hoe 17879 C10H21NO2

Description Hoe 17879 (N,N,2-Triethyl-2-hydroxybutanamide) is a high-purity synthetic organic compound with the molecular formula C10H21NO2. This tertiary amide derivative features a hydroxyl group at the alpha position, making it a valuable intermediate for pharmaceutical and chemical research. With a CAS number of 655-20-9 , Hoe 17879 is characterized by its clear to pale-yellow appearance and is typically supplied as a liquid or low-melting solid. Its unique structure lends itself to applications in medicinal chemistry, particularly in the synthesis of bioactive molecules. Strict quality control ensures ??95% purity (HPLC/GC), with batch-specific certificates of analysis available. Store under inert conditions at 2-8??C…

Description

Hoe 17879 (N,N,2-Triethyl-2-hydroxybutanamide) is a high-purity synthetic organic compound with the molecular formula C₁₀H₂₁NO₂. This tertiary amide derivative features a hydroxyl group at the alpha position, making it a valuable intermediate for pharmaceutical and chemical research. With a CAS number of 655-20-9, Hoe 17879 is characterized by its clear to pale-yellow appearance and is typically supplied as a liquid or low-melting solid. Its unique structure lends itself to applications in medicinal chemistry, particularly in the synthesis of bioactive molecules. Strict quality control ensures ??95% purity (HPLC/GC), with batch-specific certificates of analysis available. Store under inert conditions at 2-8??C to maintain stability.

CAS No: 655-20-9
Molecular Formula: C10H21NO2
Molecular Weight: 187.28
Exact Mass: 187.157228913
Monoisotopic Mass: 187.157228913
IUPAC Name: N,N,2-triethyl-2-hydroxybutanamide
SMILES: CCC(CC)(C(=O)N(CC)CC)O
Synonyms: Hoe-17879, 58889-20-6, Hoe 17879, alpha-Hydroxy-alpha-ethylbutyryl-diethylamide, n,n,2-triethyl-2-hydroxybutanamide

Application

Hoe 17879 serves as a key building block in neuropharmacological research due to its structural similarity to neurotransmitter modulators. The compound has shown potential as a precursor in the synthesis of nootropic agents and CNS-active molecules. Researchers utilize its reactive hydroxyl and amide functionalities for targeted derivatization in drug discovery programs. Its diethylamide moiety makes it particularly interesting for studying structure-activity relationships in psychotropic compounds.

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