Sodium Ketoisocaproate: A Key Pharmaceutical Intermediate for Organic Synthesis
Discover the critical role of Sodium Ketoisocaproate (CAS 4502-00-5) in advancing pharmaceutical synthesis and organic chemistry.
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Sodium Ketoisocaproate
Sodium ketoisocaproate, identified by its CAS number 4502-00-5, is an essential compound in the realm of pharmaceutical intermediates and organic synthesis. It plays a significant role in the synthesis of numerous medicinal products, serving as a crucial building block for complex organic molecules.
- Discover the key applications of sodium ketoisocaproate in drug synthesis, leveraging its properties as a vital organic synthesis building block.
- Explore the high purity (≥99.0%) of sodium ketoisocaproate, ensuring reliable performance in demanding chemical processes.
- Learn about the chemical synthesis processes where sodium ketoisocaproate is a crucial component, contributing to API development.
- Understand the market demand for fine chemical suppliers offering high quality sodium ketoisocaproate for research and industrial use.
Key Advantages
Exceptional Purity
Achieve superior results in your pharmaceutical and organic synthesis projects with our high purity sodium ketoisocaproate (≥99.0%).
Versatile Intermediate
Utilize this compound as a key building block in complex chemical synthesis, enabling the creation of advanced pharmaceutical ingredients.
Reliable Thermal Stability
Benefit from the high melting point of sodium ketoisocaproate, ensuring stability during various processing conditions crucial for API synthesis.
Key Applications
Pharmaceutical Intermediates
Sodium ketoisocaproate serves as a critical component in the development of various pharmaceuticals, aiding in the synthesis of Active Pharmaceutical Ingredients (APIs).
Organic Synthesis
Its unique chemical structure makes it a valuable reagent and building block for a wide array of organic reactions and compound creation.
Drug Discovery
Researchers leverage sodium ketoisocaproate in drug discovery to explore metabolic pathways and develop novel therapeutic agents.
Biochemical Research
As a derivative of α-ketoisocaproic acid, it is employed in biochemical studies, particularly those related to amino acid metabolism.