Organic chemists and researchers constantly seek versatile building blocks to construct intricate molecular architectures. Trans-3-Phenyl-L-proline (CAS 118758-48-8) stands out as such a compound, offering a unique combination of a proline ring structure and a phenyl substituent, along with defined stereochemistry. This amino acid derivative is a valuable asset for anyone involved in custom organic synthesis and the development of new chemical entities.

The chemical profile of Trans-3-Phenyl-L-proline includes a molecular formula of C11H13NO2 and a molecular weight of 191.23. Its physical appearance is typically a white to off-white powder, indicative of its purity. This compound's utility lies in its ability to introduce specific structural features into larger molecules. For instance, its chiral nature makes it indispensable in asymmetric synthesis, where precise control over stereochemistry is paramount for creating biologically active compounds or advanced materials.

When considering the purchase of Trans-3-Phenyl-L-proline, scientists often look for suppliers who can guarantee high purity (often 97%+) and provide detailed specifications. The price of such specialized intermediates can vary based on purity, quantity, and the supplier's origin. As a reputable manufacturer and supplier, we are dedicated to providing this essential building block to the scientific community. We understand the need for reliable access to high-quality chemicals for research and development, and we are committed to meeting those demands with competitive pricing and consistent product availability.

Exploring the synthetic pathways that utilize Trans-3-Phenyl-L-proline can open new avenues in chemical research. Whether it's for peptide modifications, the synthesis of novel heterocyclic compounds, or as a precursor in drug development, this amino acid derivative offers significant potential. We encourage researchers and procurement specialists to inquire about bulk quantities and custom synthesis services to leverage the full capabilities of this versatile molecule.