In the realm of fine chemicals and organic synthesis, specific molecules serve as linchpins for creating complex structures. 2-Bromophenetole, identified by its CAS number 583-19-7, is one such critical intermediate. Its unique structure and reactivity make it an indispensable tool for researchers and production chemists. This article delves into the characteristics and utility of 2-Bromophenetole, guiding R&D scientists and procurement specialists on its applications and how to source it effectively.

Chemical Profile of 2-Bromophenetole

2-Bromophenetole, with the chemical formula C8H9BrO, is an aromatic ether containing a bromine substituent. Typically, it is a colourless oil. Key physical properties include a boiling point around 223°C and a density of approximately 1.3646. These characteristics are important for handling and reaction planning in laboratory settings. The presence of both an ether linkage and an aryl bromide functional group dictates its chemical behavior and broad applicability in synthetic chemistry.

Applications in Advanced Synthesis

The versatility of 2-Bromophenetole stems from its ability to undergo various chemical transformations. Its primary roles include:

  • Cross-Coupling Reactions: It serves as an excellent substrate for palladium-catalyzed cross-coupling reactions, such as Suzuki, Sonogashira, and Heck couplings. These reactions are fundamental for constructing complex organic molecules, including pharmaceuticals and advanced materials.
  • Pharmaceutical Development: As a key building block, it is used in the synthesis of various pharmaceutical intermediates and active pharmaceutical ingredients (APIs). Researchers often look to buy 2-Bromophenetole to explore new drug candidates.
  • Material Science: The molecule can be incorporated into the synthesis of specialty polymers and functional materials, leveraging its specific aromatic and ethereal properties.
  • Agrochemicals: It may also find use as an intermediate in the synthesis of certain agrochemical compounds.

For professionals in these fields, understanding the precise chemical properties and potential reaction pathways involving 2-Bromophenetole is vital for successful project outcomes. Reliable information regarding purity, such as that found on a Certificate of Analysis (CoA), is crucial.

Sourcing and Procurement Considerations

When seeking to acquire 2-Bromophenetole (CAS 583-19-7), procurement managers will often look towards established chemical suppliers. China is a significant source for this compound, offering competitive CAS 583-19-7 price points due to efficient manufacturing processes. When evaluating suppliers:

  • Verify Purity: Ensure the purity specification (e.g., >97% GC) aligns with your project's requirements.
  • Check Supplier Credentials: Partner with manufacturers who provide clear documentation and have a track record of reliability.
  • Inquire about Bulk Orders: If your needs are substantial, direct inquiries to 2-Bromophenetole supplier China can yield better pricing and logistical arrangements.

The process of acquiring chemical intermediates often involves direct inquiry. Formulators and R&D scientists can easily purchase 1-bromo-2-ethoxybenzene by contacting a reputable manufacturer, providing details about the required quantity and application. This direct approach often streamlines the purchasing process and ensures access to the most current pricing and availability information.

In summary, 2-Bromophenetole is a cornerstone intermediate for many synthetic pathways. By understanding its chemical profile and applications, and by engaging with reliable manufacturers, chemists and procurement specialists can efficiently source this vital compound to drive innovation in their respective fields.