2-Bromo-9,9-difluoro-7-iodo-9H-fluorene: A Key Intermediate for Next-Generation Electronics
Unlock the potential of advanced organic electronics with this specialized fluorene derivative.
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2-Bromo-9,9-difluoro-7-iodo-9H-fluorene
This compound is a critical component for enhancing the performance and stability of organic light-emitting diodes (OLEDs) and organic photovoltaics (OPVs). Its unique molecular structure, featuring strategically placed bromine and iodine atoms on a difluorinated fluorene backbone, provides superior charge transport capabilities and improved device efficiency. This makes it an indispensable material in the field of organic electronics.
- Explore the synthesis of advanced organic molecules using this versatile fluorene derivative as a key building block, enabling the creation of novel materials with precisely controlled properties.
- Discover the benefits of high purity OLED materials in achieving brighter, more efficient, and longer-lasting electronic displays.
- Leverage the unique properties of halogenated fluorene compounds for innovative applications in material science and beyond.
- Understand the role of 2-bromo-9,9-difluoro-7-iodo-9h-fluorene cas no 1499193-60-0 in pushing the boundaries of electronic device performance and research.
Advantages This Product Offers
Enhanced Electronic Properties
The strategic placement of halogen atoms significantly improves charge transport and stability, vital for the performance of OLEDs and OPVs, contributing to the development of advanced OLED intermediates.
Versatile Synthetic Building Block
As a crucial component in the synthesis of advanced organic molecules, this compound facilitates the creation of diverse materials with tailored characteristics for various scientific applications.
High Purity for Critical Applications
With a purity of 97% min, this product ensures reliable and consistent results in sensitive applications, aligning with the demand for high purity OLED materials.
Key Applications
Organic Electronics
This compound is essential for developing next-generation organic light-emitting diodes (OLEDs) and organic photovoltaics (OPVs), improving device efficiency and longevity, a key aspect of organic electronic materials synthesis.
Material Science
It serves as a vital building block in synthesizing advanced polymers and functional materials with specific optical and electronic properties, showcasing the utility of specialty fluorene derivatives.
Organic Synthesis
Researchers utilize this compound for creating complex organic molecules, enabling breakthroughs in fields requiring precise chemical structures and enhanced functionalities, highlighting its role in novel material building blocks.
Photonic Devices
Its unique electronic and optical characteristics make it suitable for applications in photonic devices, sensors, and lasers, underscoring the importance of halogenated organic compounds research.