1-(6-Methylpyridin-2-yl)ethanone: A Key Pharmaceutical Intermediate for Organic Synthesis
Discover the versatile applications and crucial role of this organic compound in modern chemistry.
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1-(6-Methylpyridin-2-yl)ethanone
1-(6-Methylpyridin-2-yl)ethanone, also known by its CAS number 6940-57-4, is a critical chemical intermediate extensively used in various sectors, most notably in pharmaceutical research and development. Its unique chemical structure makes it an invaluable building block for the synthesis of more complex organic molecules, contributing to the advancement of drug discovery and material science.
- Explore the detailed synthesis pathways for 1-(6-methylpyridin-2-yl)ethanone to understand its production efficiently.
- Discover the extensive uses of 2-acetyl-6-methylpyridine as a foundational component in numerous chemical reactions.
- This pharmaceutical intermediate with CAS 6940-57-4 is essential for creating novel therapeutic agents.
- As a versatile organic synthesis building block, it empowers chemists to construct intricate molecular architectures.
Advantages You Gain
High Purity and Quality
Source high-purity pharmaceutical intermediate 6940-57-4, ensuring reliable results in your research and manufacturing processes.
Versatile Building Block
Leverage this compound as a key organic synthesis building block for diverse applications in medicinal chemistry and beyond.
Trusted Supplier Network
Access dependable supply chains when you buy 2-acetyl-6-methylpyridine from our curated list of reputable manufacturers.
Key Applications
Organic Synthesis
As a crucial chemical intermediate, it facilitates the creation of complex organic compounds for various industries.
Pharmaceutical Development
Its role as a pharmaceutical intermediate is vital for synthesizing active pharmaceutical ingredients (APIs) and drug candidates.
Flavor Industry
Recognized for its role as a flavor constituent, it adds unique notes to food and beverage products.
Material Science
The unique properties of this pyridine derivative can be explored for novel material applications.