Discover 6-Chloro-3-Methyluracil: Your Key Pharmaceutical Intermediate
Unlock advanced drug synthesis with high-purity 6-Chloro-3-Methyluracil, a vital building block.
Get a Quote & SampleProduct Core Value
6-Chloro-3-Methyluracil
This compound is a critical pharmaceutical intermediate, essential for the synthesis of advanced medicinal compounds. Its high purity and well-defined chemical structure make it an indispensable component in developing novel therapeutic agents, particularly in the realm of antibacterial agents and treatments for type 2 diabetes.
- Explore the utility of 6-chloro-3-methyluracil pharmaceutical intermediate in creating novel drug candidates.
- Understand the synthesis pathways of 3-methyl-6-chlorouracil for efficient drug manufacturing.
- Leverage CAS 4318-56-3 chemical properties for precise pharmaceutical formulations.
- Incorporate this high purity pharmaceutical powder as a reliable precursor in drug development.
Advantages
Unwavering Purity & Quality
Ensuring pharmaceutical-grade purity, this chemical building block for antibacterials meets stringent quality standards, providing reliability for your R&D projects.
Versatile Application in Synthesis
As a key pyrimidine derivative for drug synthesis, it facilitates the creation of complex molecules with targeted therapeutic actions.
Essential for Key Drug Intermediates
Crucial as an alogliptin intermediate raw material, it supports the production of essential medications for chronic disease management.
Key Applications
Pharmaceutical Synthesis
Utilize 6-chloro-3-methyluracil pharmaceutical intermediate to build complex APIs, driving innovation in drug discovery and development.
Antibacterial Agent Development
As a precursor for antibacterial agents, it plays a vital role in combating microbial infections through targeted chemical synthesis.
Alogliptin Production
Essential as an alogliptin intermediate raw material, supporting the efficient manufacturing of this key antidiabetic drug.
Chemical Research & Development
The versatile CAS 4318-56-3 chemical properties make it valuable for academic and industrial research into new pyrimidine-based compounds.