While N-Cbz-D-glutamic Acid Alpha-benzyl Ester (CAS: 65706-99-2) is most recognized for its pivotal role in pharmaceutical and peptide synthesis, its unique structural features and reactivity make it a valuable intermediate in broader organic synthesis applications. For chemists and material scientists seeking high-purity building blocks, understanding its versatility and how to procure it effectively is crucial.

Beyond Pharmaceuticals: Organic Synthesis Versatility

N-Cbz-D-glutamic Acid Alpha-benzyl Ester possesses a protected D-glutamic acid core, featuring a Cbz-protected amine and a benzyl ester-protected carboxylic acid. This dual protection allows for regioselective reactions and the introduction of specific stereochemistry into target molecules. Its utility extends to:

  • Chiral Auxiliaries: The inherent chirality of the D-glutamic acid backbone can be leveraged to create chiral auxiliaries, which are used to control stereochemistry in various asymmetric synthesis reactions.
  • Functional Material Precursors: In materials science, amino acid derivatives can serve as monomers or precursors for specialized polymers, biodegradable materials, or components in supramolecular assemblies. The specific functional groups on this intermediate offer sites for further modification and polymerization.
  • Ligand Synthesis: The structure is amenable to modification for synthesizing complex ligands used in catalysis, potentially offering unique coordination properties.
  • Custom Chemical Synthesis: As a robust chiral building block, it is frequently employed in custom synthesis projects where specific stereochemical configurations are required for novel compounds.

Researchers looking to buy N-Cbz-D-glutamic Acid Alpha-benzyl Ester for these applications will appreciate its consistent purity (97%) and its solubility in solvents like methanol and acetic acid, which are common in organic chemistry laboratories.

Procurement Strategies for Organic Chemists

For organic synthesis professionals, the procurement process requires careful consideration of supplier reliability and product quality. When sourcing N-Cbz-D-glutamic Acid Alpha-benzyl Ester, key factors include:

  • Purity and Characterization: Ensuring the 97% purity meets experimental requirements and that detailed analytical data (CoA) is available.
  • Supplier Specialization: Partnering with manufacturers known for producing chiral intermediates and fine chemicals. Many suppliers in China specialize in these areas, offering competitive pricing and good quality.
  • Availability of Samples: Obtaining small quantities for initial feasibility studies is essential before committing to larger purchases.
  • Bulk Ordering: For larger projects, establishing a relationship with a manufacturer that can scale up production is beneficial.

When you decide to purchase this intermediate, investigating manufacturers that provide technical data and responsive customer support will greatly simplify your procurement process.

In essence, N-Cbz-D-glutamic Acid Alpha-benzyl Ester is more than just a pharmaceutical intermediate; it is a versatile tool for advanced organic synthesis. By understanding its properties and leveraging efficient procurement channels, chemists and materials scientists can harness its potential for innovation across a wide range of disciplines.