4-Bromo-N,N-dimethylaniline: Properties, Synthesis, and Industrial Applications
A vital organic intermediate with diverse applications in pharmaceuticals and chemical synthesis.
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4-Bromo-N,N-dimethylaniline
This compound is crucial for various chemical processes, serving as a fundamental building block in organic synthesis and playing a vital role in the pharmaceutical sector. Its reliable performance makes it a sought-after material for advanced chemical manufacturing.
- Explore the various 4-bromo-n,n-dimethylaniline synthesis methods to understand its production efficiency.
- Discover its significance as a 4-bromo-n,n-dimethylaniline pharmaceutical intermediate in drug development.
- Leverage its utility as a 4-bromo-n,n-dimethylaniline analytical standard for precise chemical analysis.
- Learn about the typical 4-bromo-n,n-dimethylaniline properties and applications relevant to your research.
Advantages Offered
Versatile Synthesis Intermediate
This compound is essential for a wide array of organic synthesis building blocks, enabling the creation of complex molecular structures.
Pharmaceutical Utility
As a key 4-bromo-n,n-dimethylaniline pharmaceutical intermediate, it supports the development of new and effective medicinal compounds.
Analytical Precision
Its role as an 4-bromo-n,n-dimethylaniline analytical standard ensures accuracy in various testing and quality control processes.
Key Applications
Organic Synthesis
Utilized as a crucial reagent in numerous organic transformations, facilitating the construction of target molecules with high efficiency, making it a key component for cas 586-77-6 chemical synthesis.
Pharmaceutical Development
Serves as a vital intermediate in the synthesis of active pharmaceutical ingredients (APIs), contributing to advancements in drug discovery and production.
Chemical Analysis
Employed as a reliable 4-bromo-n,n-dimethylaniline analytical standard for qualitative and quantitative analysis, particularly for determining iodine content in various samples.
Material Science
Its unique chemical structure lends itself to applications in material science, contributing to the development of novel functional materials.