cas 139 07 1
Understanding CAS 139-07-1 The Significance and Applications of 2-Amino-5-pyrimidinecarbonitrile
The world of chemistry is vast and intricate, encompassing a myriad of compounds that play critical roles in various fields, including pharmaceuticals, agriculture, and materials science. Among these compounds, 2-Amino-5-pyrimidinecarbonitrile, known by its Chemical Abstracts Service (CAS) number 139-07-1, stands out due to its unique structure and versatile applications. Understanding the significance of this compound requires delving into its chemical properties, potential uses, and its impact on various industries.
Chemical Properties
2-Amino-5-pyrimidinecarbonitrile is an organic molecule characterized by its pyrimidine ring, which is a six-membered ring containing nitrogen atoms at the 1 and 3 positions. The presence of the amino (-NH2) and cyano (-CN) groups contributes significantly to its reactivity and functionality. This compound can exist in various forms, allowing for diverse interactions and applications in different chemical environments. The molecular formula of 2-Amino-5-pyrimidinecarbonitrile is C5H5N3, highlighting its simplicity yet potential for complex reactivity.
Understanding its physical properties, such as solubility and melting point, is crucial for scientists and engineers who may want to utilize this compound in various applications. Generally, it exhibits moderate solubility in polar solvents, making it suitable for reactions in aqueous environments or organic reactions utilizing polar solvents.
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One of the most significant uses of 2-Amino-5-pyrimidinecarbonitrile lies within the pharmaceutical sector. The structure of this compound makes it an attractive building block for developing new drugs. Its ability to act as a nitrogen source allows it to be incorporated into larger molecules, potentially leading to the creation of new therapeutic agents. Researchers have explored its potential in anti-cancer, anti-viral, and anti-inflammatory drugs, showcasing the compound's versatility and importance in medicinal chemistry.
cas 139 07 1
The pharmaceutical industry is in a constant quest for compounds that can target specific biological pathways, and the versatility of 2-Amino-5-pyrimidinecarbonitrile makes it a candidate for further study. Its derivatives may possess unique biological activities that warrant exploration through various drug development processes.
Agricultural Importance
Beyond its pharmaceutical applications, 2-Amino-5-pyrimidinecarbonitrile also holds promise in agriculture, specifically in the development of agrochemicals. The compound can be used to synthesize herbicides or pesticides that target specific crops, enhancing their yield and resistance to pests. The global demand for sustainable agricultural practices underscores the importance of finding effective and environmentally friendly agricultural chemicals. Here, 2-Amino-5-pyrimidinecarbonitrile could play a crucial role by helping scientists develop more efficient solutions to these pressing issues.
Material Science Innovations
In addition to its applications in pharmaceuticals and agriculture, the compound contributes to advancements in material science. Its unique structure allows for the potential synthesis of novel polymers and materials with tailored properties. Such materials could be used in coatings, electronic devices, and other applications where specific characteristics such as durability, flexibility, and conductivity are vital.
Conclusion
In conclusion, 2-Amino-5-pyrimidinecarbonitrile (CAS 139-07-1) embodies the essence of how a single chemical compound can influence and benefit multiple industries. Its diverse applications in pharmaceuticals, agriculture, and material science highlight the importance of continual research and development in chemistry. As scientists explore the potential of this compound further, it is likely to play an even more significant role in future innovations, demonstrating the importance of compounds that may seem obscure but hold immense promise for various applications. The ongoing exploration of such compounds remains a testament to the ever-evolving field of chemistry and its capabilities to solve real-world problems.
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