For professionals in the chemical and pharmaceutical industries, a thorough understanding of the compounds they work with is fundamental to innovation and successful production. 2-Bromothioanisole, identified by its CAS number 19614-16-5, is one such compound that offers significant utility as a synthetic intermediate. This article delves into its key chemical properties, molecular structure, and various applications, providing valuable insights for researchers, formulators, and procurement specialists.

Detailed Chemical Profile of 2-Bromothioanisole

2-Bromothioanisole is characterized by its distinct chemical makeup and physical attributes. Its molecular formula is C7H7BrS, and its molecular weight is approximately 203.10 g/mol. Physically, it typically presents as a clear yellow liquid. The compound's structure features a benzene ring substituted with both a bromine atom and a methylthio group at adjacent positions (ortho position). This arrangement is key to its reactivity in various organic transformations.

Key properties often referenced include:

  • CAS Number: 19614-16-5
  • Synonyms: Including 1-Bromo-2-(methylthio)benzene, o-Bromophenyl methyl sulfide, and others, which are important for comprehensive literature searches.
  • Molecular Weight: 203.10
  • Molecular Formula: C7H7BrS
  • Appearance: Clear yellow liquid
  • Purity: Typically available at 98% or 99% purity, essential for sensitive synthesis routes.
  • Boiling Point: Approximately 258.8 °C at 760 mmHg, indicating its stability under moderate heating.
  • Flash Point: Around 95 °C, providing information on its flammability characteristics.

Applications and Synthetic Utility

The dual functionality of 2-Bromothioanisole makes it a versatile intermediate. The bromine atom is an excellent leaving group, readily participating in metal-catalyzed cross-coupling reactions, which are cornerstones of modern organic synthesis. This allows for the facile introduction of aryl, alkyl, or alkynyl groups onto the aromatic ring, as well as the formation of C-N and C-O bonds. The methylthioether group can also be manipulated, for example, through oxidation to sulfoxides or sulfones, further expanding its synthetic potential.

These properties make 2-Bromothioanisole invaluable in:

  • Pharmaceutical Intermediate Synthesis: It serves as a precursor for a wide range of pharmaceutical compounds, contributing to the development of new drugs.
  • Fine Chemical Manufacturing: Used in the production of specialty chemicals and advanced materials where specific structural motifs are required.
  • Agrochemical Research: As a building block for developing new pesticides and crop protection agents.

When you seek to buy 2-Bromothioanisole, looking for a manufacturer that can guarantee high purity and reliable supply is paramount. Understanding its chemical properties ensures that you can effectively integrate it into your synthesis plans. If your operations require this essential intermediate, consider sourcing directly from experienced manufacturers to ensure quality and competitive pricing.