Organic chemistry is a field driven by the precise manipulation of molecules to create new compounds with specific properties. At the heart of this endeavor are versatile chemical intermediates that serve as the foundational elements for complex syntheses. One such critical intermediate is N-Boc-N-ethylaminoacetaldehyde, identified by CAS number 315718-06-0. This compound, with its unique structural features, plays a significant role in various organic synthesis pathways, particularly within the pharmaceutical industry.

N-Boc-N-ethylaminoacetaldehyde, boasting a purity of 97% min, is a protected aminoacetaldehyde derivative. The tert-butyloxycarbonyl (Boc) group provides essential protection for the amine functionality, allowing for selective reactions at other sites within the molecule. Its molecular formula is C12H8N2O2, with a molecular weight of 187.23600. This structure makes it an ideal starting material for introducing a protected ethylaminoacetaldehyde moiety into larger, more complex molecular architectures. Researchers seeking to purchase this intermediate can rely on its consistent specifications from reputable chemical suppliers.

The utility of N-Boc-N-ethylaminoacetaldehyde extends to various applications in advanced organic synthesis. It can be employed in reactions such as alkylations, cyclizations, and condensations to build intricate carbon frameworks. For chemists engaged in drug discovery and development, this intermediate is invaluable for creating novel drug candidates or optimizing existing synthetic routes. Procuring this chemical from reliable manufacturers, especially those based in China, ensures access to high-quality materials at competitive prices.

When considering the purchase of N-Boc-N-ethylaminoacetaldehyde, understanding its reaction behavior and potential applications is key. Its predicted boiling point of 238.0±19.0 °C suggests a relatively stable compound under normal laboratory conditions. For those looking to source this chemical, seeking out suppliers who emphasize rigorous quality control and provide detailed technical data is paramount. Direct inquiries for price and availability from manufacturers can streamline the procurement process, ensuring that research projects have the necessary chemical resources.

In conclusion, N-Boc-N-ethylaminoacetaldehyde stands as a testament to the importance of specialized intermediates in advancing organic chemistry and pharmaceutical innovation. By understanding its properties and leveraging the capabilities of global suppliers, scientists can effectively utilize this compound to achieve their synthetic goals.