Unlock the Potential of Pharmaceutical Synthesis with High-Purity 5-Chloropyrazolo[1,5-a]pyrimidine-3-Carbonitrile
Discover a key intermediate for advanced drug discovery and efficient synthesis processes.
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5-Chloropyrazolo[1,5-a]pyrimidine-3-Carbonitrile
This high-purity chemical intermediate, known as 5-Chloropyrazolo[1,5-a]pyrimidine-3-Carbonitrile (CAS: 1224288-92-9), is a critical building block in organic synthesis, particularly valued in the pharmaceutical industry for drug discovery and development. Its unique molecular structure, featuring a pyrazolo[1,5-a]pyrimidine core with chlorine and nitrile functionalities, offers versatile reactivity for creating complex organic molecules.
- Pioneering Pharmaceutical Intermediates Synthesis: This compound serves as a vital intermediate for the development of novel pharmaceutical agents, including potential anticancer and antiviral drugs.
- Leveraging Green Chemistry: Synthesized using efficient, environmentally friendly methods such as microwave-assisted reactions, achieving high yields (40-53% RME) and minimizing waste, aligning with sustainable chemical practices.
- Versatile Organic Synthesis Building Block: Its structure allows participation in various reactions like nucleophilic substitution and coupling, providing a strong foundation for constructing complex organic molecular structures.
- Reliable Purity and Stability: Characterized by high purity (often >98%) and good stability, it is presented as a white crystalline powder, ensuring consistent performance in synthetic applications.
Advantages Provided by the Product
Enhanced Synthetic Efficiency
Discover improved synthetic efficiency with this key intermediate, enabling the creation of complex organic molecules through well-established reactions like Vilsmeier-Haack formylation.
Cost-Effective Solution
Benefit from a cost-effective alternative to other fluorescent probes like BODIPY, with raw material costs significantly lower, making it an attractive option for large-scale applications.
Broad Applicability
Explore its broad applicability in various fields, from pharmaceutical research and pesticide synthesis to material science, showcasing its versatility and importance.
Key Applications
Pharmaceutical Development
Serves as a crucial scaffold for the research and development of novel drugs, including potential anticancer and antiviral agents, leveraging its unique heterocyclic structure.
Agrochemical Synthesis
Shows good prospects in pesticide development, enabling the synthesis of efficient, low-toxic pesticide products to aid in agricultural production and pest control.
Advanced Organic Synthesis
Acts as a versatile building block in organic synthesis, participating in diverse reactions to construct complex molecular architectures for various chemical applications.
Material Science Exploration
Its aromatic rings and aldehyde group offer potential for interesting material science applications, warranting further research into its unique electronic properties.