3-(4-Nitrophenyl)Pyridine: A Key Intermediate for Niraparib Synthesis and Advanced Chemical Applications
Discover the pivotal role of this compound in pharmaceutical synthesis and explore its versatile applications in modern chemistry.
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3-(4-Nitrophenyl)Pyridine
3-(4-Nitrophenyl)Pyridine, identified by its CAS number 4282-46-6, is a crucial organic compound widely recognized as a versatile building block in the fine chemicals and pharmaceutical intermediates sector. Its molecular structure, C11H8N2O2, and molecular weight of 200.19300 make it an impactful component in various chemical syntheses.
- This compound serves as a critical precursor in the complex synthesis of Niraparib, an important anticancer drug, highlighting its value in pharmaceutical intermediates.
- With a guaranteed purity of ≥98.0%, it meets the stringent quality requirements essential for pharmaceutical development and other high-demand applications.
- Its physical and chemical properties, including a density of 1.252 g/cm³ and a high boiling point of 364.6ºC at 760 mmHg, indicate stability and suitability for various industrial processes.
- Sourced from reliable China manufacturers, this compound ensures consistent quality, making it a trustworthy choice for companies seeking a dependable chemical synthesis building block.
Advantages Offered
Pharmaceutical Synthesis Efficiency
As a key intermediate for Niraparib, utilizing 3-(4-Nitrophenyl)Pyridine can significantly streamline the production of this vital cancer treatment, improving overall efficiency for pharmaceutical intermediates.
Assured Quality and Purity
The high purity level of 3-(4-Nitrophenyl)Pyridine (≥98.0%) ensures reliable results in sensitive chemical reactions, a critical factor when searching for high purity chemical suppliers China.
Chemical Versatility
The compound's structure allows for diverse reactions, making it valuable for a range of applications beyond its primary use, contributing to its role as a chemical synthesis building block.
Key Applications
Niraparib Production
Central to the synthesis of Niraparib, a PARP inhibitor used in cancer therapy, demonstrating its importance as a Niraparib intermediate synthesis.
Fine Chemical Synthesis
Its robust chemical structure makes it a sought-after component for various fine chemical synthesis projects and specialized chemical products.
Drug Discovery Research
Used in research and development for new pharmaceuticals and chemical entities, leveraging its reactivity for novel compound creation.
Organic Chemistry Building Block
Serves as a fundamental component in organic chemistry laboratories for creating complex molecular structures.