cas 96 31 1

The Intricacies of CAS 2096-31-1 Exploring its Importance in Modern Chemistry

In the vast realm of chemistry, compounds are identified by unique numerical identifiers known as CAS numbers. One such entity, CAS 2096-31-1, has garnered attention within specific scientific circles, particularly for its applications and significance in various industrial and research settings. This article aims to elucidate the features, uses, and implications of CAS 2096-31-1, shedding light on its role in contemporary science.

CAS 2096-31-1 corresponds to 2,3-dihydroxy-1-naphthoic acid, a compound characterized by its dual hydroxyl (-OH) functional groups attached to a naphthalene ring. This aromatic compound belongs to the family of naphthoic acids, which are known for their utility in diverse chemical applications. The naphthalene structure provides stability and unique chemical properties that make 2,3-dihydroxy-1-naphthoic acid a versatile agent in several processes, including organic synthesis and pharmaceuticals.

Furthermore, CAS 2096-31-1 has known applications in pharmaceuticals. The compound's structural features can be leveraged to design and synthesize drugs that target specific biological pathways. Research has shown that derivatives of 2,3-dihydroxy-1-naphthoic acid exhibit potential therapeutic properties for a range of ailments. This aspect not only underscores the importance of the compound in medical chemistry but also highlights the intricate connection between chemical structures and their biological activities.

In addition to its applications in dye and pharmaceutical synthesis, CAS 2096-31-1 is also studied for its role in material science. The compound can be incorporated into polymers, contributing to the development of materials with improved properties such as enhanced thermal stability, reduced water absorption, and better mechanical strength. This characteristic makes it attractive for engineers and material scientists looking to innovate and create next-generation materials for various applications, including aerospace, automotive, and electronics.

Despite its advantages, the handling and synthesis of CAS 2096-31-1 require careful consideration due to potential environmental and health impacts. As with many chemical substances, it is paramount to adhere to safety protocols to minimize risks associated with exposure. Awareness of the compound's properties and its behavior in different environments guides researchers and industrial chemists in promoting sustainable practices while maximizing its benefits.

The significance of CAS 2096-31-1 extends beyond its immediate applications; it serves as a reminder of the broader implications of chemical research. The exploration of such compounds enhances our understanding of chemical interactions and lays the groundwork for future innovations. The synergy between chemistry and technology augurs well for addressing contemporary challenges in healthcare, material science, and environmental sustainability.

As industries continue to advance, the role of compounds like CAS 2096-31-1 will become increasingly pivotal. Scientists and researchers are likely to delve deeper into its molecular attributes, uncovering new pathways for application and synthesis. This evolution will not only enhance the compound’s utility but will also contribute to the overall progress of the chemical sciences.

In conclusion, CAS 2096-31-1 exemplifies the complexity of chemistry and its vast potential. From its utility in dye and pharmaceutical industries to its applications in material science, it embodies the dynamic nature of chemical research. As we navigate an era of innovation, understanding and harnessing the properties of compounds like 2,3-dihydroxy-1-naphthoic acid is essential for fostering advancements that benefit various sectors of society.