cas 9004-65-3

Understanding CAS 209004-65-3 A Comprehensive Overview

The Chemical Abstracts Service (CAS) registry number is a unique numerical identifier assigned to every chemical substance described in the open scientific literature. One such substance is identified by the CAS number 209004-65-3. While information on this specific compound may not be readily accessible in general discussions, its relevance lies within broader scientific and industrial contexts, particularly in fields such as pharmaceuticals, agriculture, and materials science.

Chemical Identity

CAS 209004-65-3 belongs to a specific class of compounds that may have applications across various domains. Though detailed data about its molecular structure, formula, and properties may not be readily contained in common databases, it's essential to recognize that each CAS number is a vital reference point for researchers and professionals dealing with chemicals. Understanding the identity of a chemical through its CAS number can assist in the synthesis, characterization, and application of materials in diverse research endeavors.

Applications and Importance

Compounds identified by CAS numbers often play crucial roles in developing new products or processes. CAS 209004-65-3 may be involved in multiple applications such as

1. Pharmaceutical Development Many CAS chemicals are precursors or intermediates in drug formulation. Understanding the properties and reactivity of CAS 209004-65-3 could lead to advancements in therapeutic drugs, potentially impacting healthcare positively.

3. Materials Science CAS 209004-65-3 could also be relevant in materials science, specifically in the development of polymers, coatings, or other materials that meet specific industrial requirements. The characteristics of materials derived from such compounds can result in improved product performance.

Safety and Regulatory Considerations

In handling any chemical, including those represented by specific CAS numbers, safety is paramount. It is crucial for researchers and industrial users to familiarize themselves with the safety data sheet (SDS) associated with CAS 209004-65-3. SDS documents provide critical information regarding the compound's hazards, handling procedures, exposure limits, and first aid measures.

Furthermore, depending on the country and its regulations, certain compounds may require registration with regulatory bodies. For instance, in the United States, chemicals may need to comply with the Toxic Substances Control Act (TSCA), while in Europe, they may fall under the Registration, Evaluation, Authorisation and Restriction of Chemicals (REACH) regulations. Compliance ensures that the chemical is evaluated for its safety in industrial and consumer applications.

Research and Development

Research surrounding CAS 209004-65-3 could be instrumental in advancing scientific knowledge. Academic and industrial professionals might focus on synthesizing the compound through various chemical pathways, scaling up production, or modifying its structure to enhance certain properties. Such endeavors not only contribute to the body of knowledge in chemistry but may also lead to innovations in technology and products that benefit society.

Additionally, collaboration between academia and industry often plays a pivotal role in the successful development of new chemicals. By sharing findings, techniques, and expertise, both sectors can expedite the discovery and safe application of new substances associated with CAS numbers like 209004-65-3.

Conclusion

The significance of CAS 209004-65-3, like many other chemical compounds, stretches far beyond the laboratory. It underscores the interconnectedness of chemical research, safety regulations, and real-world applications. For researchers and professionals within scientific fields, understanding and utilizing CAS numbers is essential in the pursuit of innovation and safety in chemical practices. As scientific endeavors continue to advance, so too will the relevance of compounds linked to their CAS designations, leading to a myriad of possibilities for their application across various sectors. The journey from understanding chemical identity to realizing practical applications is one that drives scientific inquiry and enhances our everyday lives.