High-Purity 4-Methoxy-2-methylphenylboronic Acid: Applications and Chemical Synthesis Intermediate
Unlock advanced organic synthesis with a reliable supply of this crucial chemical building block.
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4-Methoxy-2-methylphenylboronic Acid
This compound serves as a vital chemical intermediate, particularly recognized for its role in facilitating the Suzuki reaction, a cornerstone of modern organic synthesis. Its high purity, typically 97% minimum, ensures reliable and efficient reaction outcomes for pharmaceutical and fine chemical applications.
- Explore the benefits of using 4-methoxy-2-methylphenylboronic acid CAS 208399-66-0 for your research and development projects. Its specific molecular structure makes it invaluable for creating complex organic molecules.
- Discover why sourcing high-quality 4-methoxy-2-methylphenylboronic acid is crucial for successful chemical synthesis. Consistent purity levels lead to predictable and reproducible results.
- Learn about the applications of 4-methoxy-2-methylphenylboronic acid in organic synthesis, including its utility in coupling reactions that build new carbon-carbon bonds efficiently.
- Understand the importance of a trusted 4-methoxy-2-methylphenylboronic acid supplier to ensure consistent availability and product quality for ongoing production needs.
Product Advantages
Versatile Chemical Intermediate
Leverage the reactivity of this boronic acid in various cross-coupling reactions, significantly advancing your chemical synthesis projects.
Guaranteed Purity
Benefit from a minimum purity of 97%, ensuring predictable performance and high yields in your synthetic pathways. This high standard is essential when dealing with fine chemicals.
Enabling Suzuki Reactions
Effectively utilize this compound as a key reagent in Suzuki coupling, a powerful tool for forming carbon-carbon bonds and essential for the creation of many complex organic molecules.
Key Applications
Pharmaceutical Synthesis
As a critical building block, it aids in the synthesis of active pharmaceutical ingredients (APIs), contributing to the development of new therapeutic agents.
Organic Chemistry Research
Researchers utilize this boronic acid derivative extensively in academic and industrial settings for novel molecule design and synthesis.
Materials Science
Its unique structure can be incorporated into novel materials, potentially leading to advancements in electronic or optical applications.
Fine Chemical Production
Essential for producing specialized chemicals, this compound supports the manufacturing of a wide range of complex organic molecules for various industries.