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Atomfair 3-Bromoaniline m-Bromoaniline C6H6BrN

Description 3-Bromoaniline (CAS No. 81290-20-2) is a high-purity aromatic amine derivative with the molecular formula C6H6BrN . This compound, also known as m-bromoaniline , is a versatile intermediate in organic synthesis, characterized by its pale-yellow to amber crystalline appearance. With a molecular weight of 172.02 g/mol, it is widely utilized in pharmaceutical, agrochemical, and material science research. Our product is rigorously tested to ensure ??98% purity (HPLC/GC), with trace moisture and residual solvent levels minimized for sensitive applications. Proper storage under inert atmosphere at 2-8??C is recommended to prevent decomposition. Available in scalable quantities from grams to multi-kilogram batches, each…

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Description

Description

3-Bromoaniline (CAS No. 81290-20-2) is a high-purity aromatic amine derivative with the molecular formula C6H6BrN. This compound, also known as m-bromoaniline, is a versatile intermediate in organic synthesis, characterized by its pale-yellow to amber crystalline appearance. With a molecular weight of 172.02 g/mol, it is widely utilized in pharmaceutical, agrochemical, and material science research. Our product is rigorously tested to ensure ??98% purity (HPLC/GC), with trace moisture and residual solvent levels minimized for sensitive applications. Proper storage under inert atmosphere at 2-8??C is recommended to prevent decomposition. Available in scalable quantities from grams to multi-kilogram batches, each lot is accompanied by comprehensive analytical documentation including 1H NMR, FTIR, and mass spectrometry data.

  • CAS No: 81290-20-2
  • Molecular Formula: C6H6BrN
  • Molecular Weight: 172.02
  • Exact Mass: 170.96836
  • Monoisotopic Mass: 170.96836
  • IUPAC Name: 3-bromoaniline
  • SMILES: C1=CC(=CC(=C1)Br)N
  • Synonyms: 3-BROMOANILINE, 591-19-5, Benzenamine, 3-bromo-, m-Aminobromobenzene, Aniline, m-bromo-

Application

3-Bromoaniline serves as a key building block in Suzuki-Miyaura cross-coupling reactions for biaryl synthesis. It is employed as a precursor in the manufacture of liquid crystals and OLED materials due to its electron-rich aromatic system. The compound finds particular utility in pharmaceutical intermediates, especially for brominated heterocycles in kinase inhibitor development. Researchers also utilize it for directed ortho-metalation in complex molecule construction.

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