Discover 3,6-Dihydroxy-4-methylpyridazine (CAS 5754-18-7): A Key Heterocyclic Intermediate
Explore the synthesis, properties, and research potential of this vital chemical building block.
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3,6-Dihydroxy-4-methylpyridazine
This compound, identified by CAS 5754-18-7, serves as a valuable intermediate in organic synthesis. Its unique heterocyclic structure makes it a sought-after component for various chemical transformations and research projects.
- Explore the critical role of 3,6-Dihydroxy-4-methylpyridazine in advanced organic synthesis, enabling complex molecular constructions.
- Understand the chemical properties of CAS 5754-18-7, including its physical form and reactivity, crucial for effective laboratory work.
- Learn about the synthesis process of 4-methylpyridazine-3,6-diol, from raw materials to the final purified product.
- Investigate potential applications of heterocyclic compounds for research, highlighting the versatility of this chemical.
Advantages of Using This Intermediate
Reliable Synthesis Pathway
The straightforward citraconic anhydride reaction with hydrazine provides a reproducible method for obtaining this compound.
High Purity for Research
With reported purities of 95-98%, this chemical reagent ensures accurate and consistent results in demanding research settings.
Versatile Chemical Building Block
As a key heterocyclic intermediate, it opens doors to diverse chemical transformations and novel compound discovery.
Key Applications
Organic Synthesis
A crucial component in various organic synthesis pathways, facilitating the creation of complex molecular structures.
Chemical Research
Utilized extensively in laboratories for exploring new reactions and developing novel materials, leveraging its unique chemical properties.
Intermediate for Specialty Chemicals
Serves as a foundational material for producing more complex specialty chemicals with tailored functionalities.
Development of New Compounds
Its structure makes it an excellent starting point for the design and synthesis of new chemical entities with potential therapeutic or material science applications.