4-Bromo-2-fluorobenzonitrile: A Crucial Intermediate for Advanced Chemical Synthesis
Unlock innovation with this high-purity benzonitrile derivative, vital for pharmaceuticals, OLEDs, and liquid crystals.
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4-Bromo-2-fluorobenzonitrile
As a premier organic intermediate, 4-Bromo-2-fluorobenzonitrile (CAS 105942-08-3) serves as a foundational component in the creation of complex molecular structures. Its strategic placement of halogen atoms and the nitrile group makes it exceptionally useful for various chemical transformations, particularly in the synthesis of heterocycles and advanced liquid crystals. Manufacturers rely on its consistent quality and high purity (99% min) to ensure the integrity of their final products, whether for cutting-edge pharmaceutical research or next-generation electronic materials.
- Synthesis of heterocycles using this benzonitrile derivative enables the development of novel bioactive compounds for pharmaceutical applications.
- This compound is a critical OLED material intermediate, facilitating the construction of efficient and vibrant organic light-emitting diodes.
- Its role as a liquid crystal synthesis intermediate is paramount for the display technology industry, enabling precise molecular alignment.
- We offer this high purity organic intermediate to researchers and manufacturers requiring reliable building blocks for complex organic synthesis.
Advantages Provided by the Product
Versatile Reactivity
The unique combination of bromine and fluorine on the benzonitrile ring provides versatile reactivity, allowing for a wide range of chemical modifications and coupling reactions, crucial for creating intricate molecular architectures.
Enabling Advanced Materials
As a key OLED material intermediate and a component in liquid crystal synthesis, this compound is instrumental in advancing technologies in displays and lighting, offering superior performance characteristics.
Quality Assurance
With a guaranteed minimum purity of 99%, this chemical synthesis building block ensures reliable and reproducible results in demanding research and manufacturing processes, minimizing side reactions and impurities.
Key Applications
Pharmaceutical Synthesis
Utilized as a vital pharmaceutical intermediate for the synthesis of novel drug candidates, particularly those involving complex heterocyclic structures.
OLED Technology
Serves as an essential OLED material intermediate, contributing to the development of high-performance organic electronic devices.
Liquid Crystal Displays
A critical component in liquid crystal synthesis, enabling the creation of advanced display technologies with improved visual properties.
General Organic Synthesis
Acts as a valuable chemical synthesis building block for a wide array of organic compounds, facilitating research and development in various chemical fields.