2-Bromopyridine: A Crucial Building Block in Modern Chemistry
Discover the versatility of 2-Bromopyridine (CAS 109-04-6) as a key intermediate for organic synthesis and pharmaceutical development.
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2-Bromopyridine
2-Bromopyridine (CAS 109-04-6) is a vital compound in organic chemistry, prized for its role as a versatile intermediate. Its structure, featuring a bromine atom at the 2-position of the pyridine ring, makes it exceptionally useful for creating new carbon-nitrogen bonds through various cross-coupling reactions, including the notable Negishi cross-coupling.
- 2-bromopyridine CAS 109-04-6 is a foundational material enabling the synthesis of complex organic molecules.
- Its utility in C-N bond formation makes it indispensable in creating many advanced chemical structures.
- As a key pharmaceutical intermediate, it contributes to the development of novel drug candidates.
- The conversion to 2-lithiopyridine synthesis unlocks a wide array of synthetic possibilities and applications.
Key Advantages and Features
Synthetic Versatility
Leverage the power of cross-coupling reactions with 2-Bromopyridine to build intricate molecular architectures efficiently.
Pharmaceutical Applications
As a crucial pharmaceutical intermediate, it plays a vital role in the synthesis pathway for many active pharmaceutical ingredients.
Introduction of 2-pyridyl Group
The compound is instrumental in the 2-pyridyl group introduction into various molecular frameworks, enhancing functionality and properties.
Key Applications
Organic Synthesis
2-Bromopyridine is a cornerstone for a wide range of organic transformations, facilitating organic synthesis and creating novel compounds.
Pharmaceutical Development
Its role as a pharmaceutical intermediate is critical for the synthesis of diverse drug molecules, impacting healthcare advancements.
Agrochemical Sector
In agrochemicals, it serves as an essential intermediate for developing complex molecules with specific pesticidal properties, supporting crop protection.
Performance Chemicals
Its unique structure makes it valuable in developing advanced performance chemicals, contributing to material science innovation.