The Role of Fluoranthen-3-amine (CAS 2693-46-1) in OLED Material Chemistry
The field of organic light-emitting diodes (OLEDs) has revolutionized display technology, offering superior image quality, energy efficiency, and design flexibility. The foundation of these advancements lies in the innovative synthesis of OLED materials, which critically depend on high-quality chemical intermediates. Among these, Fluoranthen-3-amine, identified by CAS number 2693-46-1, plays a crucial role.
This compound, also known as 3-Aminofluoranthene, is a key intermediate with a molecular formula of C16H11N and a molecular weight of approximately 217.27 g/mol. Its characterization as a white powder with a melting point of 115-117°C signifies its chemical purity and stability, essential attributes for its use in demanding synthesis processes. The guaranteed purity of ≥99.0% ensures that it serves as a reliable building block in the complex chain of OLED material development.
For professionals aiming to buy OLED synthesis materials, understanding the utility of intermediates like Fluoranthen-3-amine is vital. It is employed in the chemical synthesis of advanced molecules for OLEDs, contributing to the creation of materials with optimized charge transport and light-emitting properties. The amine group within its structure provides a reactive site that allows for a wide range of chemical modifications, enabling researchers to design materials with specific functionalities.
The reliability of sourcing from a dedicated high purity C16H11N supplier is a significant factor for any organization involved in OLED research or manufacturing. Consistent quality in intermediates directly translates to predictable performance and scalability in production. This makes the careful selection of suppliers a critical step in the development process.
Fluoranthen-3-amine is not merely a precursor but an enabler of innovation in organic electronics. Its application in creating advanced materials contributes to the ongoing evolution of display and lighting technologies, pushing the boundaries of efficiency, color vibrancy, and device longevity. As the demand for sophisticated electronic components grows, the importance of such specialized chemical intermediates will continue to rise.
In summary, Fluoranthen-3-amine is an indispensable chemical intermediate that empowers the development of cutting-edge OLED materials. Its precise chemical specifications and high purity underscore its significance in advancing the capabilities of modern organic electronic devices.
This compound, also known as 3-Aminofluoranthene, is a key intermediate with a molecular formula of C16H11N and a molecular weight of approximately 217.27 g/mol. Its characterization as a white powder with a melting point of 115-117°C signifies its chemical purity and stability, essential attributes for its use in demanding synthesis processes. The guaranteed purity of ≥99.0% ensures that it serves as a reliable building block in the complex chain of OLED material development.
For professionals aiming to buy OLED synthesis materials, understanding the utility of intermediates like Fluoranthen-3-amine is vital. It is employed in the chemical synthesis of advanced molecules for OLEDs, contributing to the creation of materials with optimized charge transport and light-emitting properties. The amine group within its structure provides a reactive site that allows for a wide range of chemical modifications, enabling researchers to design materials with specific functionalities.
The reliability of sourcing from a dedicated high purity C16H11N supplier is a significant factor for any organization involved in OLED research or manufacturing. Consistent quality in intermediates directly translates to predictable performance and scalability in production. This makes the careful selection of suppliers a critical step in the development process.
Fluoranthen-3-amine is not merely a precursor but an enabler of innovation in organic electronics. Its application in creating advanced materials contributes to the ongoing evolution of display and lighting technologies, pushing the boundaries of efficiency, color vibrancy, and device longevity. As the demand for sophisticated electronic components grows, the importance of such specialized chemical intermediates will continue to rise.
In summary, Fluoranthen-3-amine is an indispensable chemical intermediate that empowers the development of cutting-edge OLED materials. Its precise chemical specifications and high purity underscore its significance in advancing the capabilities of modern organic electronic devices.
Perspectives & Insights
Bio Analyst 88
“The foundation of these advancements lies in the innovative synthesis of OLED materials, which critically depend on high-quality chemical intermediates.”
Nano Seeker Pro
“Among these, Fluoranthen-3-amine, identified by CAS number 2693-46-1, plays a crucial role.”
Data Reader 7
“This compound, also known as 3-Aminofluoranthene, is a key intermediate with a molecular formula of C16H11N and a molecular weight of approximately 217.”