Understanding 4-Phenoxyphthalic Anhydride: Properties and Applications
A vital component in pharmaceutical and fine chemical synthesis, discover its critical role and chemical characteristics.
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4-Phenoxyphthalic anhydride
4-Phenoxyphthalic anhydride is a crucial chemical intermediate with widespread applications in the pharmaceutical and fine chemical sectors. Its precisely defined molecular structure and high purity make it an indispensable building block for synthesizing complex molecules, including active pharmaceutical ingredients (APIs).
- Explore the 4-Phenoxyphthalic Anhydride CAS 21345-01-7 properties for your advanced chemical synthesis projects.
- Discover the key applications of this phenoxyphthalic anhydride derivative in creating complex pharmaceutical intermediates.
- Learn about the synthesis pathways and understanding the C14H8O4 molecular weight for precise chemical reactions.
- Source this high-quality white powder for your fine chemical applications, ensuring reliable production outcomes.
Key Advantages
High Purity & Reliability
The consistent 99% purity of 4-Phenoxyphthalic Anhydride ensures predictable and reliable results in sensitive organic synthesis processes, a critical factor when producing pharmaceutical intermediates.
Versatile Chemical Intermediate
As a key component in the synthesis of various pharmaceuticals and fine chemicals, its structural versatility makes it a valuable asset for developing new compounds and optimizing existing processes.
Facilitates Complex Synthesis
The unique chemical structure of this phenoxyphthalic anhydride derivative enables intricate molecular construction, supporting the creation of advanced materials and drug molecules.
Key Applications
Pharmaceutical Synthesis
Crucial for the production of various pharmaceuticals and their intermediates, including its role as a precursor for compounds like Roxadustat.
Fine Chemical Manufacturing
Utilized in the creation of specialized fine chemicals, where its specific molecular structure contributes to the desired properties of the end products.
Organic Reaction Intermediate
Serves as a fundamental building block in organic chemistry, enabling a wide range of reactions and transformations essential for chemical research and development.
Material Science Research
Its properties make it a subject of interest in material science, particularly in the development of novel polymers and advanced materials.