cas 40372 66 5

The Mystery of Code CAS 204372 66 5

In the ever-evolving landscape of scientific research and development, certain codes and identifiers hold significant importance. One such code is CAS 204372 66 5, which serves as a Chemical Abstracts Service (CAS) Registry Number. The CAS Registry is a comprehensive database that assigns unique identifiers to chemical substances, making it easier for researchers and industry professionals to identify and reference specific chemicals accurately. This article delves into the significance of CAS numbers, the chemical associated with the code CAS 204372 66 5, and the broader implications for science and industry.

Understanding CAS Numbers

Now, what exactly is a CAS number? It is a unique numerical identifier assigned to every chemical compound, polymer, biological compound, and mixture that is described in the literature. The format typically consists of three parts, separated by hyphens. The first part is a variable-length number, the second is a two-digit number, and the last is a single-digit checksum. The purpose of these numbers is to provide a clear and unambiguous way to identify substances since common names can vary widely across different regions and disciplines.

CAS numbers are especially crucial in fields like pharmaceuticals, where precision is paramount. For instance, when a new drug is developed, scientists must communicate the specific chemical compound involved, and the CAS number provides a standardized way to do so. In regulatory contexts, such as Environmental Protection Agency (EPA) assessments or food safety evaluations, CAS numbers also streamline the identification process, ensuring that the right substances are evaluated consistently.

The specific substance identified by the CAS number 204372 66 5 is crucial for understanding its applications and significance. This compound is known as N-[4-(Trifluoromethyl)phenyl]acetamide, a chemical that has garnered interest in various research fields, particularly in the realms of pharmaceutical development and materials science.

N-[4-(Trifluoromethyl)phenyl]acetamide is characterized by the presence of a trifluoromethyl group, which is known for enhancing the pharmacological properties of drugs. The trifluoromethyl group is a powerful electron-withdrawing group that can affect the reactivity and bioavailability of the molecules to which it is attached. As a result, compounds bearing this group are often more potent and longer-lasting in biological contexts.

Research indicates that compounds like N-[4-(Trifluoromethyl)phenyl]acetamide may have applications in the development of anti-inflammatory drugs, where modifications to molecular structures can lead to improved efficacy and reduced side effects. As such, understanding the properties and behaviors of substances like this is not just a matter of academic interest but also holds practical implications for drug synthesis and formulation.

The Broader Implications

The study of compounds such as N-[4-(Trifluoromethyl)phenyl]acetamide exemplifies the interconnectedness of chemical research and its applications in real-world scenarios. As we strive for technological advancements and medical breakthroughs, the importance of precise identification and classification of substances cannot be overstated.

Research institutions and pharmaceutical companies rely heavily on CAS numbers to maintain accurate records of the substances they work with, paving the way for innovations in drug discovery, material sciences, and beyond. In this context, the code CAS 204372 66 5 is more than just a string of numbers; it represents a gateway to understanding complex chemical interactions and developing new solutions to pressing health challenges.

In conclusion, while the world of chemical compounds may seem daunting, codes like CAS 204372 66 5 help demystify the complexities and enable collaborative efforts across scientific disciplines. They provide a robust framework for ongoing research, innovation, and the pursuit of knowledge that can significantly impact our lives. As we continue to explore the potential of chemical compounds, the role of CAS numbers will undoubtedly remain a cornerstone of scientific communication and progress.