High-Purity 1,2-bis(2'-methyl-5'-bromothien-3'-yl)perfluorocyclopentene (CAS: 159590-16-6): A Key Intermediate for Advanced Materials
Discover the essential properties and applications of this vital organofluorine chemical intermediate for your innovative projects.
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1,2-bis(2'-methyl-5'-bromothien-3'-yl)perfluorocyclopentene
This high-purity chemical intermediate, identified by CAS number 159590-16-6, is indispensable for cutting-edge chemical synthesis. Its unique structure makes it a valuable precursor in the development of novel materials and complex organic molecules. We ensure consistent quality and reliable supply for your research and manufacturing needs.
- Leverage the power of 1,2-bis(2'-methyl-5'-bromothien-3'-yl)perfluorocyclopentene purity for your synthesis, ensuring optimal reaction outcomes and product integrity.
- Explore the diverse possibilities of using CAS 159590-16-6 chemical intermediate in advanced organic synthesis pathways, opening new avenues for material innovation.
- Benefit from the consistent availability of this high purity organofluorine compound synthesis, critical for maintaining production schedules and research momentum.
- Integrate brominated thiophene derivatives applications into your project, utilizing the specific reactivity and structural features of this compound.
Advantages
Exceptional Purity
Achieve superior results with our guaranteed 97% min purity for the 1,2-bis(2'-methyl-5'-bromothien-3'-yl)perfluorocyclopentene, crucial for sensitive applications and advanced material precursor synthesis.
Versatile Chemical Intermediate
As a key CAS 159590-16-6 chemical intermediate, it supports a wide range of organic chemistry reactions, enabling the creation of complex molecular architectures for various industries.
Reliable Supply Chain
Count on a stable and dependable source for your requirements of this high purity organofluorine compound synthesis, backed by efficient production and logistics.
Key Applications
Organic Synthesis
Utilize as a versatile building block in complex organic synthesis, supporting the creation of novel compounds for pharmaceutical and material science research. Its role in brominated thiophene derivatives applications is significant.
Material Science
This compound serves as a critical component in the development of new materials, including those for electronics and optoelectronics, leveraging its unique fluorinated and heterocyclic structure.
Research and Development
Essential for R&D laboratories seeking advanced chemical intermediates to explore new chemical spaces and develop innovative solutions in chemistry and related fields.
Specialty Chemicals Manufacturing
A valuable raw material for the production of specialty chemicals, offering precise structural elements for tailored product development.