Exploring the Compound 122628-50-6 A Comprehensive Overview
In the world of chemical compounds, unique identifiers like CAS numbers hold significant importance. One such compound with the CAS number 122628-50-6 has garnered attention in various scientific fields. This article delves into the characteristics, applications, and considerations surrounding this compound, as well as its implications in research and industry.
Firstly, it is essential to understand what the CAS number 122628-50-6 represents
. This number is a unique numeric identifier assigned by the Chemical Abstracts Service (CAS) to provide a reliable reference for chemical substances. CAS numbers facilitate the easy access and communication of chemical information across various databases, journals, and research papers. Specifically, the number 122628-50-6 corresponds to 2-Hydroxy-1-(4-chlorophenyl)ethanone, a compound that has demonstrated relevance in both synthetic and applied chemistry.2-Hydroxy-1-(4-chlorophenyl)ethanone features a hydroxyl (–OH) group and a chlorophenyl group attached to a carbon skeleton. This structure endows it with notable reactivity, which can be harnessed in various organic synthesis reactions. The presence of the hydroxyl group makes this compound an effective candidate in the synthesis of more complex molecules, highlighting its utility in organic chemistry laboratories. Researchers often leverage such compounds to develop pharmaceuticals, agrochemicals, and various industrial materials.
Applications of 122628-50-6 extend into diverse fields, particularly in medicinal chemistry. Compounds with similar structures are often found in the development of anti-inflammatory, antipyretic, and analgesic drugs. The presence of the chlorophenyl group in particular has been associated with activity against a variety of biological targets. Early research on this compound indicates potential for modulation in biological pathways, suggesting that 122628-50-6 may emerge as a vital component in medicinal chemistry development.
122628-50-6
Moreover, this compound also plays a role in the study of reaction mechanisms. Its unique structural characteristics allow chemists to probe into various reaction pathways, providing insights into how similar structures may behave under different conditions. Such knowledge expands the toolkit available to chemists and researchers, enabling them to innovate and optimize synthetic protocols.
However, the exploration of compounds like 122628-50-6 is not without its challenges. Safety and environmental considerations must be taken into account when handling and utilizing chemical substances. Data regarding toxicity and environmental impact of 122628-50-6 is essential for researchers and industries engaged in its application. Responsible research practices necessitate thorough risk assessments, ensuring that appropriate measures are taken to minimize exposure and mitigate risks.
Furthermore, the regulatory landscape surrounding chemical compounds continues to evolve. Researchers and industries must stay abreast of local and international regulations pertaining to the manufacture, sale, and usage of such compounds. Compliance with regulatory guidelines not only fosters safety but also promotes sustainable practices within the industry.
In conclusion, the compound 122628-50-6 (2-Hydroxy-1-(4-chlorophenyl)ethanone) stands as a notable example of how chemical identifiers can encapsulate the complexity of chemical substances and their potential applications. The exploration of this compound opens avenues for innovation in pharmaceuticals and organic synthesis while emphasizing the importance of safety and regulatory compliance. Continued research and development within the context of this compound and similar substances may yield promising advancements in various scientific domains. As we move forward, it is imperative to balance innovation with responsibility, ensuring that the benefits of chemical research are realized in a manner that is safe and sustainable.