Atomfair 1-Butyl-3-fluorobenzene C10H13F

Description 1-Butyl-3-fluorobenzene (CAS No. 20651-66-5) is a high-purity fluorinated aromatic compound with the molecular formula C10H13F . This specialty chemical is synthesized under stringent quality control measures to ensure optimal consistency and performance for research and industrial applications. Its unique structure, featuring a fluorine substituent on the benzene ring and a butyl side chain, makes it a valuable intermediate in organic synthesis, material science, and pharmaceutical development. Available in various quantities, our product is rigorously tested for purity (typically ??95% by GC) and is supplied in secure, chemically resistant packaging to maintain integrity. Ideal for researchers requiring precise fluorinated building…

Description

1-Butyl-3-fluorobenzene (CAS No. 20651-66-5) is a high-purity fluorinated aromatic compound with the molecular formula C₁₀H₁₃F. This specialty chemical is synthesized under stringent quality control measures to ensure optimal consistency and performance for research and industrial applications. Its unique structure, featuring a fluorine substituent on the benzene ring and a butyl side chain, makes it a valuable intermediate in organic synthesis, material science, and pharmaceutical development. Available in various quantities, our product is rigorously tested for purity (typically ??95% by GC) and is supplied in secure, chemically resistant packaging to maintain integrity. Ideal for researchers requiring precise fluorinated building blocks.

CAS No: 20651-66-5
Molecular Formula: C10H13F
Molecular Weight: 152.21
Exact Mass: 152.100128577
Monoisotopic Mass: 152.100128577
IUPAC Name: 1-butyl-3-fluorobenzene
SMILES: CCCCC1=CC(=CC=C1)F
Synonyms: 1-butyl-3-fluorobenzene, 20651-66-5, 1-BUTYL-3-FLUORO-BENZENE, Benzene, 1-butyl-3-fluoro-, Benzene,1-butyl-3-fluoro-

Application

1-Butyl-3-fluorobenzene is widely utilized as a key intermediate in the synthesis of advanced organic materials, including liquid crystals and agrochemicals. Its fluorinated aromatic structure lends itself to applications in pharmaceutical research, particularly in the development of bioactive molecules. The compound also serves as a precursor in catalytic reactions and polymer chemistry, where its stability and reactivity are advantageous.

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