The intricate process of drug discovery relies heavily on the availability of specialized chemical building blocks that enable the synthesis of novel therapeutic agents. Among these vital components is N-Boc-N-ethylaminoacetaldehyde, a versatile pharmaceutical intermediate with the CAS number 315718-06-0. Its unique structure and high purity make it an indispensable tool for chemists in the pursuit of new medicines.

N-Boc-N-ethylaminoacetaldehyde is characterized by its protected amine group and aldehyde functionality, which together provide a powerful platform for constructing complex molecular scaffolds common in many drug candidates. The presence of the tert-butyloxycarbonyl (Boc) protecting group allows for selective chemical transformations, ensuring that reactions occur at desired positions without unwanted side reactions. This precision is critical in multi-step syntheses, where intermediate purity, such as the 97% minimum typically offered, directly influences the yield and quality of the final Active Pharmaceutical Ingredient (API).

In modern drug discovery pipelines, intermediates like N-Boc-N-ethylaminoacetaldehyde are employed in various synthetic strategies, including fragment-based drug design, lead optimization, and the creation of complex heterocyclic systems. Researchers frequently look to purchase these compounds from reliable suppliers who can guarantee consistent quality and availability. Manufacturers in China are increasingly recognized for their ability to produce high-purity chemicals at competitive prices, making them key partners for pharmaceutical companies worldwide.

The procurement of such intermediates involves understanding their molecular formula (C12H8N2O2) and molecular weight (187.23600), as well as their reactivity profiles. For R&D scientists, having readily accessible and well-characterized intermediates from reputable sources is paramount. When inquiring about N-Boc-N-ethylaminoacetaldehyde, seeking information on its typical applications and any available technical support from the manufacturer can further streamline the R&D process. Getting a quote for this essential intermediate is the first step towards integrating it into your discovery workflow.

In conclusion, N-Boc-N-ethylaminoacetaldehyde exemplifies the critical role that specialized chemical intermediates play in the advancement of pharmaceutical science. Its contribution to efficient and precise synthesis pathways underscores its importance in bringing new and effective treatments to patients.