1-(2-Methoxyphenyl)piperazine Hydrobromide: Synthesis, Properties, and Pharmaceutical Applications
A crucial pharmaceutical intermediate for advanced drug synthesis and development.
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1-(2-Methoxyphenyl)piperazine Hydrobromide
This compound serves as a vital building block in the creation of complex pharmaceutical agents, significantly contributing to the efficacy and accessibility of modern medicines.
- Discover the pivotal role of 1-(2-Methoxyphenyl)piperazine hydrobromide in drug synthesis, enhancing the production of critical medications.
- Explore the chemical synthesis pathways for 1-(2-Methoxyphenyl)piperazine hydrobromide, a key step in developing advanced pharmaceutical intermediates.
- Learn why high purity pharmaceutical intermediate compounds like this are essential for reliable drug development outcomes.
- Investigate how sourcing reliable pharmaceutical intermediates directly impacts the cost and availability of essential drugs.
Key Advantages
Enhanced Synthesis Efficiency
Leverage the power of specialized chemical intermediates to improve the efficiency and yield of your drug development processes, ensuring a smoother pathway from lab to market.
Critical for Fluanidone and Urapidil
This compound is integral to the synthesis of essential drugs like fluanidone and urapidil, showcasing its direct contribution to important therapeutic areas.
Guaranteed Purity Standards
Benefit from a minimum purity of 99.00%, a critical factor for pharmaceutical intermediates ensuring the safety and efficacy of the final drug product.
Key Applications
Pharmaceutical Synthesis
As a key pharmaceutical intermediate, it is indispensable for the production of various active pharmaceutical ingredients (APIs), contributing to the synthesis of compounds like fluanidone.
Drug Development
Its specific chemical structure makes it a valuable building block in drug discovery and development, aiding researchers in creating novel therapeutic agents.
Urapidil Production
Essential for the manufacturing of Urapidil, a medication used to treat hypertension, highlighting its direct impact on cardiovascular therapies.
Advanced Organic Chemistry
Its versatile chemical nature allows for its use in various complex organic synthesis projects, pushing the boundaries of chemical research and application.