D-Phenylglycine CAS 875-74-1: Your Key Pharmaceutical Intermediate for Advanced Synthesis
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D-Phenylglycine
D-Phenylglycine (CAS 875-74-1) is a vital chemical intermediate, indispensable for the synthesis of numerous pharmaceuticals. Its high purity and specific chemical structure make it a preferred choice for advanced applications.
- Explore the synthesis of semisynthetic penicillins and cephalosporins using D-phenylglycine pharmaceutical intermediate.
- Leverage D-phenylglycine as a chiral synthesis building block to create stereospecific compounds.
- Discover the versatility of this amino acid derivative for drugs in pharmaceutical development.
- Source D-phenylglycine suppliers in China for reliable and cost-effective procurement.
Product Advantages
Exceptional Purity
D-Phenylglycine boasts a high assay, often exceeding 99.0%, ensuring minimal impurities and consistent results in your chemical synthesis processes, crucial for accurate pharmaceutical intermediate production.
Versatile Application
This compound is a cornerstone for producing critical medications, acting as a key intermediate for semisynthetic penicillins and cephalosporins, vital in treating bacterial infections.
Enabling Chirality
As a chiral synthesis building block, D-phenylglycine is essential for creating enantiomerically pure compounds, a fundamental requirement in modern medicinal chemistry for targeted drug efficacy and safety.
Key Applications
Antibiotic Synthesis
D-Phenylglycine is a critical component in the synthesis of life-saving antibiotics like ampicillin and cephalexin, underscoring its importance in pharmaceutical manufacturing.
Chiral Synthesis
Its chiral nature makes it invaluable in asymmetric synthesis, allowing for the precise creation of enantiomers required for highly specific drug actions.
Biochemical Research
D-Phenylglycine serves as a valuable tool in biochemical research, aiding in the study of protein interactions and enzyme activities fundamental to drug discovery.
Pharmaceutical Development
As an amino acid derivative for drugs, it plays a significant role in the development of new pharmaceutical formulations, enhancing efficacy and therapeutic outcomes.