In the relentless pursuit of novel therapeutics, the quality and accessibility of chemical intermediates are paramount. (R)-(+)-9-(2-Hydroxypropyl)adenine, identified by CAS 14047-28-0, has emerged as a key player in modern drug discovery and development. This chiral purine derivative is highly valued by researchers and pharmaceutical manufacturers alike for its specific structural features and versatile applications in creating advanced pharmaceutical compounds.

The significance of (R)-(+)-9-(2-Hydroxypropyl)adenine lies in its role as a building block for complex organic molecules, particularly those designed to interact with biological systems. Its structural resemblance to natural nucleosides makes it a prime candidate for use in synthesizing molecules that can act as antiviral agents, metabolic modulators, or targets in biochemical research. The precise enantiomeric form, denoted by (R), is crucial for achieving specific biological activity and minimizing off-target effects, a key consideration in drug design.

For scientists and procurement specialists, understanding the specifications and sourcing channels for this compound is vital. Typically, (R)-(+)-9-(2-Hydroxypropyl)adenine is sought with a high purity, often 98% or greater, and presented in a form such as an almost white powder. This emphasis on purity ensures reliable performance in demanding synthetic procedures and analytical validations within pharmaceutical R&D.

When looking to purchase (R)-(+)-9-(2-Hydroxypropyl)adenine, establishing a relationship with a reputable manufacturer and supplier is critical. Companies that specialize in fine chemicals and pharmaceutical intermediates, particularly those with strong manufacturing bases in regions like China, can offer significant advantages. These suppliers often provide not only competitive pricing but also consistent quality, readily available CoAs, and a stable supply chain, which are essential for both research projects and commercial manufacturing.

The demand for such specialized intermediates underscores the importance of a robust chemical supply network. Researchers aiming to push the boundaries of pharmaceutical science will find that securing a reliable source for (R)-(+)-9-(2-Hydroxypropyl)adenine enables them to accelerate their discovery pipelines. Whether it’s for antiviral drug development or fundamental biochemical studies, the availability of this high-purity intermediate is a cornerstone of progress.

In conclusion, (R)-(+)-9-(2-Hydroxypropyl)adenine (CAS 14047-28-0) plays an indispensable role in the pharmaceutical industry's quest for innovative treatments. By prioritizing purity, understanding its chiral significance, and partnering with dependable chemical manufacturers and suppliers, drug discovery teams can effectively leverage this compound to advance their research and development efforts.