Unlock the Potential of 4-Amino-4H-1,2,4-triazole (CAS 584-13-4)
Discover the key properties, applications, and synthesis of this vital fine chemical.
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4-Amino-4H-1,2,4-triazole
4-Amino-4H-1,2,4-triazole, identified by CAS 584-13-4, is a significant nitrogen heterocycle utilized across various scientific and industrial domains. Its primary role as a chemical intermediate, particularly in the synthesis of antifungal agents like fluconazole, underscores its importance in pharmaceutical development. Furthermore, its unique properties make it valuable for detailed analysis in techniques such as FTIR spectroscopy, aiding in the differentiation of nitrogen atoms based on vibrational frequencies.
- Explore the 4-Amino-4H-1,2,4-triazole properties, including its appearance as a fine crystalline powder and its solubility in water and methanol, crucial for handling and formulation.
- Learn about the 4-Amino-4H-1,2,4-triazole applications, with a key focus on its role as a chemical intermediate in complex organic syntheses.
- Understand the 4-Amino-4H-1,2,4-triazole synthesis pathways, vital for efficient production and availability.
- Discover why sourcing this compound is essential for advancements in pharmaceutical research and development.
Key Advantages
Versatile Chemical Intermediate
Leverage this compound's utility in various chemical synthesis projects, serving as a fundamental building block for more complex molecules.
Pharmaceutical Development Support
Benefit from its established role as an intermediate for antifungal agents, facilitating the development of critical medications.
Analytical Precision
Utilize this chemical in advanced analytical techniques like FTIR spectroscopy analysis to gain deeper insights into molecular structures and interactions.
Key Applications
Pharmaceutical Synthesis
As a critical chemical intermediate, it plays a pivotal role in the synthesis of active pharmaceutical ingredients, notably antifungal agents.
Organic Chemistry Research
Researchers utilize this compound for its unique chemical structure in exploring new synthetic routes and molecular functionalities, contributing to advancements in organic synthesis building blocks.
Spectroscopic Analysis
The compound's distinct vibrational frequencies make it a useful subject for FTIR spectroscopy analysis, enhancing our understanding of chemical structures.
Material Science Exploration
Potential applications exist in material science, where its nitrogen-rich structure could be explored for novel material development.
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