CAS 36265-41-5 refers to a specific chemical compound known as 9H-purine-6-amine, also known as 3,7-dihydro-6H-purine. This compound is of particular interest in various industries, including pharmaceuticals and agricultural science. Understanding its properties and applications can greatly enhance innovation in these sectors.
This compound is primarily utilized in the synthesis of pharmaceuticals. Its chemical structure makes it a valuable building block for creating biologically active molecules. Furthermore, it can play a role in enhancing crop resistance in agricultural formulations, so its potential applications are multifaceted.
The properties of CAS 36265-41-5 include its molecular weight, solubility, and stability under various conditions. It has shown adequate stability when stored properly and is moderately soluble in polar solvents. These properties make it advantageous for both lab-scale experiments and industrial applications.
As with many chemical compounds, proper safety measures should be taken when handling CAS 36265-41-5. While it is not classified as highly hazardous, irritations can occur upon direct contact. It's advisable to use standard laboratory protective equipment, including gloves and goggles, to minimize risk.
CAS 36265-41-5 falls under various regulations depending on its location of use. It is crucial for manufacturers and researchers to stay informed about local and international regulatory guidelines, particularly if the compound is used in products intended for human consumption or environmental impact.
The synthesis of CAS 36265-41-5 involves several chemical reactions that require careful control over conditions such as temperature and pH. Typically, it is synthesized in multi-step processes that may involve the modification of simpler purine derivatives, showcasing the complexity and sophistication of chemical manufacturing.
The market for CAS 36265-41-5 is witnessing a growing demand, particularly in the pharmaceutical sector. As research expands into drug discovery and development, the necessity for innovative compounds like CAS 36265-41-5 is becoming increasingly significant. Additionally, the rise in agrochemicals usage further enhances its market potential.
While CAS 36265-41-5 has its unique set of properties, there are alternatives available depending on the intended application. Other purine derivatives may serve similar roles in pharmaceutical synthesis. However, the specific advantages of CAS 36265-41-5, such as its unique reactivity and compatibility, make it a preferred choice in certain cases.
Quality control of CAS 36265-41-5 involves rigorous testing methods to ascertain purity and detect any contaminants. It is essential for manufacturers to adopt standardized procedures, such as High-Performance Liquid Chromatography (HPLC) and Nuclear Magnetic Resonance (NMR) spectroscopy, to ensure that the compound meets industry standards and product specifications.
Future research into CAS 36265-41-5 is poised to explore its potential utility in new therapeutic areas, including targeted drug delivery and cancer treatment. Innovations in synthetic methodologies and the exploration of novel applications in materials science could also broaden the spectrum of its uses. Collaborative efforts among academia, industry, and regulatory bodies would play a crucial role in paving the way for advancements in research and development.
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