3,6-Dibromopyridazine (17973-86-3): Key Intermediate for Pharmaceutical and Agrochemical Synthesis
A vital heterocyclic building block powering innovation in medicine and agriculture.
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3,6-Dibromopyridazine
3,6-Dibromopyridazine, identified by its CAS number 17973-86-3, stands as a critical intermediate in the intricate landscape of organic synthesis. Its unique heterocyclic structure, featuring two bromine atoms, makes it a highly reactive and versatile component for creating complex molecules. The compound is indispensable in the synthesis of a wide array of pharmaceutical agents and plays a significant role in the development of advanced agrochemicals.
- As a key component in organic synthesis, 3,6-dibromopyridazine enables chemists to build complex molecular structures.
- The presence of bromine atoms on the pyridazine ring facilitates various coupling reactions, crucial for pharmaceutical intermediates.
- Researchers leverage 3,6-dibromopyridazine for its role in creating novel antiviral and antihypertensive medications.
- Its utility extends to the agrochemical sector, where it aids in the development of effective herbicides and pesticides for crop protection.
Advantages Offered by the Product
Versatile Reactivity
The dual bromine substitution on the pyridazine core provides excellent reactivity, making 3,6-dibromopyridazine a highly adaptable building block for diverse organic synthesis projects, including complex heterocyclic chemistry.
Broad Application Scope
Its significance spans across multiple industries, from crafting life-saving pharmaceuticals to enhancing agricultural yields, underscoring its broad application scope as a fine chemical intermediate.
Reliable Purity Standards
With a guaranteed purity of 95%min, this compound ensures consistent and predictable results in chemical reactions, crucial for high-stakes research and development in pharmaceutical intermediate synthesis.
Key Applications
Pharmaceutical Development
Utilized as a critical building block in the synthesis of numerous pharmaceutical agents, particularly in the creation of antiviral and antihypertensive drugs, contributing to improved therapeutic efficacy.
Agrochemical Synthesis
Serves as an essential precursor in the development of potent herbicides and pesticides, aiding in crop protection and promoting sustainable farming practices.
Specialty Chemical Production
Its reactive nature makes it valuable for synthesizing various specialty chemicals with tailored properties for industrial applications.
Organic Chemistry Research
A fundamental tool for researchers exploring new chemical pathways and reactions, facilitating advancements in heterocyclic chemistry and organic synthesis.