Modern synthesis, particularly in the pharmaceutical and advanced materials sectors, relies heavily on the availability of precisely engineered chemical intermediates. Acetaldehyde, N-[(2S)-2-(acetyloxy)-3-chloropropyl]-, identified by its unique CAS number 183905-31-9, stands as a testament to this reliance. This article delves into the significance of this compound in contemporary chemical synthesis and underscores the importance of acquiring it from reputable sources.

The chemical structure of Acetaldehyde, N-[(2S)-2-(acetyloxy)-3-chloropropyl]- (C7H12ClNO3, MW 193.63) provides chemists with a versatile chiral building block. The specific stereochemistry inherent in the molecule, indicated by the '(2S)' designation, is often critical for biological activity or the desired properties of downstream products, especially in pharmaceutical applications where enantiomeric purity is paramount. This makes it an invaluable component for researchers aiming to develop enantiomerically pure active pharmaceutical ingredients (APIs).

For scientists engaged in complex organic synthesis, the ability to 'buy' high-quality intermediates is fundamental. When seeking to acquire Acetaldehyde, N-[(2S)-2-(acetyloxy)-3-chloropropyl]-, the emphasis is invariably placed on purity and structural integrity. A reliable 'cas 183905-31-9 supplier China' can provide the necessary assurance. Such suppliers often leverage advanced synthetic techniques and stringent quality control measures to ensure that the delivered material meets exacting specifications.

The demand for such specialized intermediates drives the market for 'pharmaceutical intermediate manufacturers'. These entities play a crucial role in the value chain, bridging the gap between basic chemical production and the intricate needs of drug discovery and development. For bulk requirements, obtaining a competitive 'price' is a key objective for procurement managers, who often compare offerings from multiple 'high purity acetamide' derivative suppliers.

The applications of Acetaldehyde, N-[(2S)-2-(acetyloxy)-3-chloropropyl]- extend beyond just pharmaceutical synthesis. It can serve as a precursor for other fine chemicals, specialized reagents, and potentially in the development of novel materials where specific functional groups and chirality are desired. Its precise role often depends on the specific reaction conditions and the target molecule being synthesized.

In summary, Acetaldehyde, N-[(2S)-2-(acetyloxy)-3-chloropropyl]- (CAS 183905-31-9) is a significant intermediate in modern chemical synthesis due to its defined chirality and functional groups. Procuring this compound requires a focus on purity and reliability, making trusted manufacturers, especially those in China, essential partners for researchers and industries seeking to push the boundaries of chemical innovation.