4-Nitro-1H-Pyrazole-3-Carbonitrile: A Versatile Heterocyclic Building Block for Synthesis
Discover the chemical properties and applications of this key intermediate for your advanced synthesis needs.
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4-Nitro-1H-Pyrazole-3-Carbonitrile
This nitrogen-rich heterocyclic compound, 4-Nitro-1H-Pyrazole-3-Carbonitrile (CAS 61241-07-4), is a critical intermediate in organic synthesis, valued for its reactive nitro and nitrile functional groups. It serves as a crucial building block for the preparation of a wide array of substituted pyrazoles and more complex heterocyclic systems, finding extensive use in medicinal chemistry and material science.
- Leverage its structure for synthesis of substituted pyrazoles: The nitrile group can be functionalized through various reactions, leading to diversely substituted pyrazole derivatives valuable in medicinal chemistry and other fields.
- Explore its potential in pharmaceutical research: Studies suggest possible antibacterial activity, making it an interesting compound for developing new antibiotics.
- Utilize for energetic material formulation: Due to its nitrogen-rich structure, it finds application in the formulation of explosives and propellants, benefiting from its inherent energetic properties.
- Benefit from advanced synthesis methods: The article explores green chemistry approaches and catalytic methods for efficient and sustainable production.
Key Advantages
Versatile Synthetic Utility
As a key organic building block for pharma, its nitro and nitrile groups offer multiple reaction pathways for creating complex molecular structures.
Research & Development Potential
Investigate its potential biological activities, such as antibacterial activity, contributing to new drug discovery efforts.
Green Synthesis Focus
Discover green chemistry for pyrazoles, with methods emphasizing sustainability, reduced waste, and efficient production for specialty fine chemical intermediates.
Key Applications
Organic Synthesis
A critical intermediate for the preparation of substituted pyrazoles and other complex heterocyclic compounds, essential for organic synthesis intermediates.
Medicinal Chemistry
Explored for potential therapeutic properties, serving as a foundational component in medicinal chemistry building blocks and drug discovery.
Energetic Materials
Its nitrogen-rich structure makes it a component in the formulation of explosives and propellants, highlighting its role in nitrogen-rich organic compounds.
Advanced Chemical Research
A key compound for researchers developing novel chemical synthesis platforms and exploring new material properties.