4,6-Dimethyl-2-methylsulfonylpyrimidine: Synthesis, Properties, and Applications
A key pyrimidine intermediate for pharmaceutical synthesis and advanced organic chemistry.
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4,6-Dimethyl-2-methylsulfonylpyrimidine
This compound is a crucial building block in the pharmaceutical industry, particularly serving as a key intermediate in the synthesis of Ambrisentan. Its well-defined chemical structure and high purity make it ideal for precise chemical transformations, contributing to the efficient production of active pharmaceutical ingredients.
- Understanding the synthesis of 4,6-Dimethyl-2-methylsulfonylpyrimidine is vital for pharmaceutical development. The compound's molecular formula C7H10N2O2S and weight of 186.23100 facilitate its integration into complex synthetic routes.
- Explore the physical and chemical properties of CAS 35144-22-0, including its density of 1.239g/cm3 and a melting point of 84-86°C, which are critical for handling and process design in organic synthesis.
- Discover the application of pyrimidine derivatives in medicinal chemistry, with this compound playing a significant role in creating therapeutic agents like Ambrisentan.
- Investigate high purity organic intermediates, such as this 99% pure white crystalline powder, essential for achieving high yields and desired outcomes in advanced chemical manufacturing.
Key Advantages
High Purity and Consistency
Benefit from the 99% purity of this compound, ensuring reliable results and minimizing side reactions, crucial for achieving desired outcomes when exploring high purity organic intermediates.
Versatile Synthetic Utility
Leverage the reactive methylsulfonyl group and the pyrimidine core for diverse chemical transformations, making it a valuable asset in various organic synthesis pathways.
Critical Pharmaceutical Intermediate
Utilize this compound as a foundational element for synthesizing complex APIs, directly impacting the efficiency and success of drug development, especially for compounds like Ambrisentan.
Key Applications
Ambrisentan Synthesis
As a vital pharmaceutical intermediate, its precise structure supports the multi-step synthesis of Ambrisentan, a key drug in treating specific medical conditions.
Organic Synthesis Building Block
Its functional groups allow for a wide range of reactions, making it an indispensable tool for chemists developing novel compounds and exploring new synthetic routes.
Research and Development
Researchers utilize this compound in laboratories to investigate new pyrimidine derivative properties and potential applications in various chemical fields.
Fine Chemical Manufacturing
The reliable production and availability of this high-purity chemical are essential for fine chemical manufacturers supplying the global pharmaceutical and research sectors.